<?xml version='1.0'encoding='utf-8'?>encoding='UTF-8'?> <!-- draft submitted in xml v3 --> <!DOCTYPE rfc [ <!ENTITY nbsp " "> <!ENTITY zwsp "​"> <!ENTITY nbhy "‑"> <!ENTITY wj "⁠"> ]><?xml-stylesheet type="text/xsl" href="rfc2629.xslt" ?> <!-- generated by https://github.com/cabo/kramdown-rfc version 1.7.2 (Ruby 3.2.2) --><rfc xmlns:xi="http://www.w3.org/2001/XInclude" ipr="trust200902" docName="draft-ietf-taps-arch-19" number="9621" updates="" obsoletes="" submissionType="IETF" category="std" consensus="true" tocInclude="true" sortRefs="true" symRefs="true"version="3"> <!-- xml2rfc v2v3 conversion 3.18.2 -->version="3" xml:lang="en"> <front> <titleabbrev="TAPSabbrev="Transport Services Architecture">Architecture and Requirements for Transport Services</title> <seriesInfoname="Internet-Draft" value="draft-ietf-taps-arch-19"/>name="RFC" value="9621"/> <author initials="T." surname="Pauly" fullname="Tommy Pauly" role="editor"> <organization>Apple Inc.</organization> <address> <postal> <street>One Apple Park Way</street><city>Cupertino, California 95014</city><city>Cupertino</city> <region>CA</region> <code>95014</code> <country>United States of America</country> </postal> <email>tpauly@apple.com</email> </address> </author> <author initials="B." surname="Trammell" fullname="Brian Trammell" role="editor"> <organization>Google Switzerland GmbH</organization> <address> <postal> <street>Gustav-Gull-Platz 1</street><city>8004 Zurich</city><city>Zurich</city> <code>8004</code> <country>Switzerland</country> </postal> <email>ietf@trammell.ch</email> </address> </author> <author initials="A." surname="Brunstrom" fullname="Anna Brunstrom"> <organization>Karlstad University</organization> <address> <postal> <street>Universitetsgatan 2</street> <city>651 88 Karlstad</city> <country>Sweden</country> </postal> <email>anna.brunstrom@kau.se</email> </address> </author> <author initials="G." surname="Fairhurst" fullname="Godred Fairhurst"> <organization>University of Aberdeen</organization> <address> <postal> <street>Fraser Noble Building</street> <city>Aberdeen, AB24 3UE</city> <country>United Kingdom</country> <!-- <country>Scotland</country> Changed to United Kingdom, per RFCs 9268 and 9435 --> </postal> <email>gorry@erg.abdn.ac.uk</email><uri>http://www.erg.abdn.ac.uk/</uri><uri>https://erg.abdn.ac.uk/</uri> </address> </author> <authorinitials="C."initials="C. S." surname="Perkins" fullname="Colin S. Perkins"> <organization>University of Glasgow</organization> <address> <postal> <street>School of Computing Science</street> <city>Glasgow G12 8QQ</city> <country>United Kingdom</country> </postal> <email>csp@csperkins.org</email> </address> </author> <dateyear="2023" month="November" day="09"/> <area>Transport</area> <workgroup>TAPS Working Group</workgroup> <keyword>Internet-Draft</keyword>year="2024" month="December"/> <area>WIT</area> <workgroup>taps</workgroup> <!-- [rfced] Please insert any keywords (beyond those that appear in the title) for use on <https://www.rfc-editor.org/search>. --> <abstract><?line 68?><t>This document describes an architecturefor exposing transport protocol features to applications for network communication. This systemthat exposes transport protocol features to applications for network communication. The Transport Services Application Programming Interface (API) is based on an asynchronous, event-driven interaction pattern. This API usesmessagesMessages for representing data transfer toapplications,applications and describes how a Transport Services Implementation can use multiple IP addresses, multiple protocols, and multiplepaths,paths and can provide multiple application streams. This document provides the architecture and requirements. It defines common terminology and concepts to be used in definitions of a TransportServiceServices API and a Transport Services Implementation.</t> </abstract> </front> <middle><?line 72?><section anchor="introduction"> <name>Introduction</name> <t>Manyapplication programming interfacesApplication Programming Interfaces (APIs) to provide transport interfaces to networks have been deployed, perhaps the most widely known and imitated being theBSDSocket<xref target="POSIX"/>interface (SocketAPI).API) <xref target="POSIX"/>. The naming of objects and functions across these APIs is not consistent andvariesvaries, depending on the protocol being used. For example, the concept of sending and receiving streams of data isconceptuallythe same for both an unencrypted Transmission Control Protocol (TCP) stream and operating on an encrypted Transport Layer Security (TLS) stream <xref target="RFC8446"/>streamover TCP, but applications cannot use the same socket <tt>send()</tt> and <tt>recv()</tt> calls on top of both kinds of connections. Similarly, terminology for the implementation of transport protocols varies based on the context of the protocols themselves: terms such as "flow", "stream", "message", and "connection" can take on many different meanings. This variety can lead to confusion when trying to understand the similarities and differences betweenprotocols,protocols and how applications can use themeffectively.</t>effectively. </t> <t>The goal of the Transport Services System architecture is to provide a flexible and reusable system with a common interface for transport protocols. An application uses the Transport Services System through an abstract Connection (we use capitalization to distinguish these from the underlying connections of,e.g.,for example, TCP). This provides flexibleconnectionConnection establishment allowing an application to request or require a set ofproperties.</t>Properties.</t> <t>As applications adopt this interface, they will benefit from a wide set of transport features that can evolve overtime,time and will ensure that the system providing the interface can optimize its behavior based on the application requirements and network conditions, without requiring changes to the applications. This flexibility enables faster deployment of new features and protocols.</t> <t>This architecture can also support applications by offering racing mechanisms (attempting multiple IP addresses, protocols, or network paths in parallel), which otherwise need to be implemented in each application separately (see <xref target="racing"/>). Racing selects one or morecandidatescandidates, each with equivalentprotocol stacksProtocol Stacks that are used to identify an optimal combination of a transport protocol instance such as TCP, UDP, or another transport, together with configuration of parameters and interfaces. A Connection represents an object that, once established, can be used to send and receivemessages.Messages. A Connection can also be created from another Connection, by cloning, and then forms a part of a Connection Group whose Connections shareproperties.</t>Properties. </t> <t>This document was developed in parallel with the specification of the Transport Services API <xreftarget="I-D.ietf-taps-interface"/>target="RFC9622"/> and implementation guidelines <xreftarget="I-D.ietf-taps-impl"/>.target="RFC9623"/>. Although following the Transport ServicesarchitectureArchitecture does not require all APIs and implementations to be identical, a common minimal set of features represented in a consistent fashion will enable applications to be easily ported from one implementation of the Transport Services System to another.</t> <section anchor="background"> <name>Background</name> <t>The architecture of the Transport Services System is based on the survey of services provided by IETF transport protocols and congestion control mechanisms <xreftarget="RFC8095"/>,target="RFC8095"/> and the distilled minimal set of the features offered by transport protocols <xref target="RFC8923"/>. These documents identified common features and patterns across all transport protocols developed thus far in the IETF.</t> <t>Since transport security is an increasingly relevant aspect of using transport protocols on the Internet, this document also considers the impact of transport security protocols on thefeature-setfeature set exposed by Transport Services <xref target="RFC8922"/>.</t> <t>One of the key insights to come from identifying the minimal set of features provided by transport protocols <xref target="RFC8923"/> was that features eitherrequire(1) require application interaction and guidance (referred to in that document as Functional or OptimizingFeatures),Features) orelse can(2) can be handled automatically by an implementation of the Transport Services System (referred to as Automatable Features). Among the identified Functional and Optimizing Features, some are common across all or nearly all transport protocols, while others present features that, if specified, would only be useful with a subset of protocols, but would not harm the functionality of other protocols. For example, some protocols can deliver messagesfastermore quickly for applications that do not require messages to arrive in the order in which they were sent. This functionality needs to be explicitly allowed by the application, since reordering messages would be undesirable in many cases.</t> </section> <section anchor="overview"> <name>Overview</name><t>This document describes<t>The following sections describe the Transport ServicesSystem in three sections:</t>System:</t> <ul spacing="normal"> <li> <t><xref target="model"/> describes how the Transport Services API model differs from that oftraditionalsocket-based APIs. Specifically, it offers asynchronous event-driven interaction, the use ofmessagesMessages for data transfer, and the flexibility to use different transport protocols and paths without requiring major changes to the application.</t> </li> <li> <t><xref target="requirements"/> explains the fundamental requirements for a Transport Services System. These principles are intended to make sure that transport protocols can continue to be enhanced and evolve without requiring significant changes by application developers.</t> </li> <li> <t><xref target="concepts"/> presents the Transport Services Implementation and defines the concepts that are used by the API <xreftarget="I-D.ietf-taps-interface"/>target="RFC9622"/> and described in the implementation guidelines <xreftarget="I-D.ietf-taps-impl"/>.target="RFC9623"/>. This introduces the Preconnection, which allows applications to configure Connection Properties.</t> </li> </ul> </section> <section anchor="specification-of-requirements"> <name>Specification of Requirements</name> <t>The key words"MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY","<bcp14>MUST</bcp14>", "<bcp14>MUST NOT</bcp14>", "<bcp14>REQUIRED</bcp14>", "<bcp14>SHALL</bcp14>", "<bcp14>SHALL NOT</bcp14>", "<bcp14>SHOULD</bcp14>", "<bcp14>SHOULD NOT</bcp14>", "<bcp14>RECOMMENDED</bcp14>", "<bcp14>NOT RECOMMENDED</bcp14>", "<bcp14>MAY</bcp14>", and"OPTIONAL""<bcp14>OPTIONAL</bcp14>" in this document are to be interpreted as described inBCP 14BCP 14 <xref target="RFC2119"/> <xref target="RFC8174"/> when, and only when, they appear in all capitals, as shown here.</t> </section> <section anchor="glossary-of-key-terms"> <name>Glossary of Key Terms</name> <t>This subsection provides a glossary of key terms related to the Transport Servicesarchitecture.Architecture. It provides a short description of key terms that arelaterdefined later in this document.</t><ul<dl spacing="normal"><li> <t>Application:<dt>Application:</dt><dd> An entity that uses the transport layer for end-to-end delivery of data across the network <xreftarget="RFC8095"/>.</t> </li> <li> <t>Cached State:target="RFC8095"/>.</dd> <dt>Cached State:</dt><dd> The state and history that the Transport Services Implementation keeps for each set of the associated Endpoints that have been usedpreviously.</t> </li> <li> <t>Candidate Path:previously.</dd> <dt>Candidate Path:</dt><dd> One path that is available to an application and conforms to the Selection Properties and System Policy duringracing.</t> </li> <li> <t>Candidateracing.</dd> <dt>Candidate ProtocolStack:Stack:</dt><dd> One Protocol Stack that can be used by an application for a Connection duringracing.</t> </li> <li> <t>Client:racing.</dd> <dt>Client:</dt><dd> The peer responsible for initiating aConnection.</t> </li> <li> <t>Clone:Connection.</dd> <dt>Clone:</dt><dd> A Connection that was created from anotherConnection,Connection and that forms a part of a ConnectionGroup.</t> </li> <li> <t>Connection:Group.</dd> <dt>Connection:</dt><dd> Shared state of two or more Endpoints that persists across Messages that are transmitted and received between these Endpoints <xref target="RFC8303"/>. When this document(andand other Transport Servicesdocuments)documents use the capitalized "Connection" term, it refers to a Connection object that is being offered by the Transport Servicessystem,System, as opposed to more generic uses of the word"connection".</t> </li> <li> <t>Connection Context:"connection".</dd> <dt>Connection Context:</dt><dd> A set of storedpropertiesProperties across Connections, such as cached protocol state, cached path state, and heuristics, which can include one or more ConnectionGroups.</t> </li> <li> <t>Connection Group:Groups.</dd> <dt>Connection Group:</dt><dd> A set of Connections that sharepropertiesProperties andcaches.</t> </li> <li> <t>Connection Property:caches.</dd> <dt>Connection Property:</dt><dd> A Transport Property that controls per-Connection behavior of a Transport Servicesimplementation.</t> </li> <li> <t>Endpoint:Implementation.</dd> <dt>Endpoint:</dt><dd> An entity that communicates with one or more otherendpointsEndpoints using a transportprotocol.</t> </li> <li> <t>Endpoint Identifier:protocol.</dd> <dt>Endpoint Identifier:</dt><dd> An identifier that specifies one side of a Connection (local or remote), such as a hostname orURL.</t> </li> <li> <t>EquivalentURL.</dd> <dt>Equivalent ProtocolStacks:Stacks:</dt><dd> Protocol Stacks that can be safely swapped or raced in parallel during establishment of aConnection.</t> </li> <li> <t>Event:Connection.</dd> <dt>Event:</dt><dd> A primitive that is invoked by an Endpoint <xreftarget="RFC8303"/>.</t> </li> <li> <t>Framer:target="RFC8303"/>.</dd> <dt>Framer:</dt><dd> A data translation layer that can be added to a Connection to define how application-layer Messages are transmitted over a ProtocolStack.</t> </li> <li> <t>Local Endpoint:Stack.</dd> <dt>Local Endpoint:</dt><dd> The localEndpoint.</t> </li> <li> <t>LocalEndpoint.</dd> <dt>Local EndpointIdentifier:Identifier:</dt><dd> A representation of the application's identifier for itself that it uses for aConnection.</t> </li> <li> <t>Message:Connection.</dd> <dt>Message:</dt><dd> A unit of data that can be transferred between two Endpoints over aConnection.</t> </li> <li> <t>Message Property:Connection.</dd> <dt>Message Property:</dt><dd> A property that can be used to specify details about Messagetransmission,transmission or obtain details about the transmission after receiving aMessage.</t> </li> <li> <t>Parameter:Message.</dd> <dt>Parameter:</dt><dd> A value passed between an application and a transport protocol by a primitive <xreftarget="RFC8303"/>.</t> </li> <li> <t>Path:target="RFC8303"/>.</dd> <dt>Path:</dt><dd> A representation of an available set ofpropertiesProperties that a Local Endpoint can use to communicate with a RemoteEndpoint.</t> </li> <li> <t>Peer:Endpoint.</dd> <dt>Peer:</dt><dd> An Endpoint application party to aConnection.</t> </li> <li> <t>Preconnection: anConnection.</dd> <dt>Preconnection:</dt><dd> An object that represents a Connection that has not yet beenestablished.</t> </li> <li> <t>Preference:established.</dd> <dt>Preference:</dt><dd> A preferenceto prohibit, avoid, ignore, prefer,for prohibiting, avoiding, ignoring, preferring, orrequirerequiring a specificTransport Feature.</t> </li> <li> <t>Primitive:transport feature.</dd> <dt>Primitive:</dt><dd> A function call that is used to locally communicate between an application and an Endpoint, which is related to one or moreTransport Featurestransport features <xreftarget="RFC8303"/>.</t> </li> <li> <t>Protocol Instance:target="RFC8303"/>.</dd> <dt>Protocol Instance:</dt><dd> A single instance of one protocol, including any state necessary to establish connectivity or send and receiveMessages.</t> </li> <li> <t>Protocol Stack:Messages.</dd> <dt>Protocol Stack:</dt><dd> A set ofProtocol Instancesprotocol instances that are used together to establish connectivity or send and receiveMessages.</t> </li> <li> <t>Racing:Messages.</dd> <dt>Racing:</dt><dd> The attempt to select between multiple Protocol Stacks based on the Selection and Connection Properties communicated by the application, along with any SecurityParameters.</t> </li> <li> <t>Remote Endpoint:Parameters.</dd> <dt>Remote Endpoint:</dt><dd> The peer that alocalLocal Endpoint can communicate with when a Connection isestablished.</t> </li> <li> <t>Remoteestablished.</dd> <dt>Remote EndpointIdentifier:Identifier:</dt><dd> A representation of the application's identifier for a peer that can participate in establishing aConnection.</t> </li> <li> <t>Rendezvous:Connection.</dd> <dt>Rendezvous:</dt><dd> The action of establishing a peer-to-peer Connection with a RemoteEndpoint.</t> </li> <li> <t>Security Parameters:Endpoint.</dd> <dt>Security Parameters:</dt><dd> Parameters that define an application's requirements for authentication and encryption on aConnection.</t> </li> <li> <t>Server:Connection.</dd> <dt>Selection Property:</dt><dd> A Transport Property that can be set to influence the selection of paths between the Local and Remote Endpoints.</dd> <dt>Server:</dt><dd> The peer responsible for responding to a Connectioninitiation.</t> </li> <li> <t>Socket:initiation.</dd> <dt>Socket:</dt><dd> The combination of a destination IP address and a destination port number <xreftarget="RFC8303"/>.</t> </li> <li> <t>System Policy:target="RFC8303"/>.</dd> <dt>System Policy:</dt><dd> The input from an operating system or other global preferences that can constrain or influence how an implementation will gather Candidate Paths and Candidate Protocol Stacks and race the candidates during establishment of aConnection.</t> </li> <li> <t>Selection Property: A Transport Property that can be set to influence the selection of paths between the Local and Remote Endpoints.</t> </li> <li> <t>Transport Feature:Connection.</dd> <dt>Transport Feature:</dt><dd> A specific end-to-end feature that the transport layer provides to anapplication.</t> </li> <li> <t>Transport Property:application.</dd> <dt>Transport Property:</dt><dd> A propertythat expresses requirements, prohibitionsof a transport protocol andpreferencesthe services it provides <xreftarget="RFC8095"/>.</t> </li> <li> <t>Transport Service:target="RFC8095"/>.</dd> <dt>Transport Service:</dt><dd> A set of transport features,without an association tonot associated with any given framing protocol, that provides a complete service to anapplication.</t> </li> <li> <t>Transportapplication.</dd> <dt>Transport ServicesImplementation: This consists of allAPI:</dt><dd>The abstract interface <xref target="RFC9622" format="default"/> to a Transport Services Implementation <xref target="RFC9623" format="default"/>.</dd> <dt>Transport Services Implementation:</dt><dd> All objects and protocol instances used internally to a system or library to implement the functionality needed to provide a transport service across a network, as required by the abstractinterface.</t> </li> <li> <t>Transportinterface.</dd> <dt>Transport ServicesSystem:System:</dt><dd> The Transport Services Implementation and the Transport ServicesAPI.</t> </li> </ul>API.</dd> </dl> </section> </section> <section anchor="model"> <name>API Model</name> <t>Thetraditionalmodel of using sockets can be represented as follows (seefigure 1):</t><xref target="fig-sockets"/>):</t> <ul spacing="normal"> <li> <t>Applications create connections and transfer data using the Socket API.</t> </li> <li> <t>The Socket API provides the interface to the implementations of TCP and UDP (typically implemented in the system's kernel).</t> </li> <li> <t>TCP and UDP in the kernel send and receive data over the available network-layer interfaces.</t> </li> <li> <t>Sockets are bound directly to transport-layer and network-layer addresses, obtained via a separate resolution step, usually performed by a system-provided DNS stub resolver.</t> </li> </ul> <figure anchor="fig-sockets"> <name>Socket API Model</name> <artwork><![CDATA[ +-----------------------------------------------------+ | Application | +-----------------------------------------------------+ | | | +------------+ +------------+ +--------------+ | DNSstubStub | | Stream API | | Datagram API | |resolverResolver | +------------+ +--------------+ +------------+ | | +---------------------------------+ | TCP UDP | | Kernel Networking Stack | +---------------------------------+ | +-----------------------------------------------------+ |Network LayerNetwork-Layer Interface | +-----------------------------------------------------+ ]]></artwork> </figure> <t>The architecture of the Transport Services System is an evolution of this general model of interaction. It both modernizes the API presented to applications by the transport layer and enriches the capabilities of the Transport Services Implementation below this API.</t><figure anchor="fig-taps"> <name>Transport Services API Model</name> <artwork><![CDATA[ +-----------------------------------------------------+ | Application | +-----------------------------------------------------+ | +-----------------------------------------------------+ | Transport Services API | +-----------------------------------------------------+ | +-----------------------------------------------------+ | Transport Services Implementation | | (Using: DNS, UDP, TCP, SCTP, DCCP, TLS, QUIC, etc) | +-----------------------------------------------------+ | +-----------------------------------------------------+ | Network Layer Interface | +-----------------------------------------------------+ ]]></artwork> </figure><t>The Transport Services API <xreftarget="I-D.ietf-taps-interface"/>target="RFC9622"/> defines the interface for an application to create Connections and transfer data. It combines interfaces for multiple interaction patterns into a unified whole (seefigure 2).<xref target="fig-taps"/>). This offers generic functions and also the protocol-specific mappings for TCP, UDP, UDP-Lite, and other protocol layers. Thesemappingmappings are extensible. Future documents could define similar mappings for new layers and for other transport protocols, such as QUIC <xreftarget="RFC9000"/>. Bytarget="RFC9000"/>.</t> <figure anchor="fig-taps"> <name>Transport Services API Model</name> <artwork><![CDATA[ +-----------------------------------------------------+ | Application | +-----------------------------------------------------+ | +-----------------------------------------------------+ | Transport Services API | +-----------------------------------------------------+ | +-----------------------------------------------------+ | Transport Services Implementation | | (Using DNS, UDP, TCP, SCTP, DCCP, TLS, QUIC, etc.) | +-----------------------------------------------------+ | +-----------------------------------------------------+ | Network-Layer Interface | +-----------------------------------------------------+ ]]></artwork> </figure> <t>By combining name resolution withconnectionConnection establishment and data transfer in a single API, it allows for more flexible implementations to provide path and transport protocol agility on the application's behalf.</t> <t>The Transport Services Implementation <xreftarget="I-D.ietf-taps-impl"/>target="RFC9623"/> is the component of the Transport Services System that implements thetransport layertransport-layer protocols and other functions needed to send and receive data. It is responsible for mapping the API to a specific available transport Protocol Stack and managing the available network interfaces and paths.</t> <t>There are key differences between the architecture of the Transport Services System and the architecture of the SocketAPI: theAPI. The API of the Transport ServicesSystem isSystem:</t> <ul spacing="normal"> <li>is asynchronous andevent-driven; it uses messagesevent-driven;</li> <li>uses Messages for representing data transfer toapplications; and it describesapplications;</li> <li>describes how a Transport Services Implementation can resolve Endpoint Identifiers to use multiple IP addresses, multiple protocols, and multiplepaths,paths and to provide multiple applicationstreams.</t>streams.</li> </ul> <section anchor="event-driven-api"> <name>Event-Driven API</name> <t>Originally, the Socket API presented a blocking interface for establishing connections and transferring data. However, most modern applications interact with the network asynchronously. Emulation of an asynchronous interface using the Socket API can use a try-and-fail model:Ifif the application wants toread,read but data has not yet been received from the peer, the call to read will fail. The application then waits and can try again later.</t> <t>In contrast to the Socket API, all interactions using the Transport Services API are expected to be asynchronous. The API is defined around an event-driven model (see <xref target="events"/>), which models this asynchronous interaction. Other forms of asynchronous communication could also be available to applications, depending on the platform implementing the interface.</t> <t>For example, when an application that uses the Transport Services API wants to receive data, it issues an asynchronous call to receive new data from the Connection. When delivered data becomes available, this data is delivered to the application using asynchronous events that contain the data. Error handling is also asynchronous, resulting in asynchronous error events.</t> <t>This API also delivers events regarding the lifetime of a connection and changes in the available network links, which were not previously made explicit in the Socket API.</t> <t>Using asynchronous events allows for a more natural interaction model when establishing connections and transferring data. Events in time more closely reflect the nature of interactions over networks, as opposed to how the Socket API represents network resources as file system objects that may be temporarily unavailable.</t> <t>Separate from events, callbacks are also provided for asynchronous interactions with the Transport Services API that are not directly related to events on the network or network interfaces.</t> </section> <section anchor="data-transfer-using-messages"> <name>Data Transfer Using Messages</name> <t>The Socket API provides a message interface for datagram protocols likeUDP,UDP but provides an unstructured stream abstraction for TCP. While TCP has the ability to send and receive data as a byte-stream, most applications need to interpret structure within this byte-stream. For example, HTTP/1.1 uses character delimiters to segment messages over a byte-stream <xref target="RFC9112"/>; TLS record headers carry a version, content type, and length <xref target="RFC8446"/>; and HTTP/2 uses frames to segment its headers and bodies <xref target="RFC9113"/>.</t> <t>The Transport Services API represents data asmessages,Messages, so that it more closely matches the way applications use the network. Amessage-basedMessage-based abstraction provides many benefits, such as:</t> <ul spacing="normal"> <li> <t>providing additional information to the Protocol Stack;</t> </li> <li> <t>the ability to associate deadlines withmessages,Messages, for applications that care about timing;</t> </li> <li> <t>the ability to control reliability, whichmessagesMessages to retransmit when there is packet loss, and how best to make use of the data that arrived;</t> </li> <li> <t>the ability to automatically assignmessagesMessages and connections to underlying transport connections to utilizemulti-streamingmultistreaming andpooled connections.</t>create Pooled Connections.</t> </li> </ul> <t>Allowing applications to interact withmessagesMessages isbackwards-compatiblebackward-compatible with existing protocols and APIs because it does not change the wire format of any protocol. Instead, it provides the Protocol Stack with additional information to allow it to make better use of moderntransport services,Transport Services, while simplifying the application's role in parsing data. For protocols that inherently use a streaming abstraction,framersFramers (<xref target="datatransfer"/>) bridge the gap between the two abstractions.</t> </section> <section anchor="flexible-implementation"> <name>Flexible Implementation</name> <t>The Socket API for protocols like TCP is generally limited to connecting to a single address over a single interface (IP source address). It also presents a single stream to the application. Software layers built upon this API often propagate this limitation of a single-address single-stream model. The Transport ServicesarchitectureArchitecture isdesigned:</t>designed to:</t> <ul spacing="normal"> <li><t>to handle<t>handle multiple candidate endpoints, protocols, and paths;</t> </li> <li><t>to support<t>support candidate protocol racing to select the most optimal stack in each situation;</t> </li> <li><t>to support<t>support multipath and multistreaming protocols;</t> </li> <li><t>to provide<t>provide state caching and application control over it.</t> </li> </ul> <t>A Transport Services Implementation is intended to be flexible atconnectionConnection establishment time, considering many different options and trying to select the most optimal combinations by racing them and measuring the results (see<xref target="gathering"/>Sections <xref target="gathering" format="counter"/> and <xreftarget="racing"/>).target="racing" format="counter"/>). This requires applications to specify identifiers for the Local and Remote Endpoint that arehigher-levelat a higher level than IP addresses, such as a hostname orURL, whichURL. These identifiers are used by a Transport Services Implementation for resolution, path selection, and racing. An implementation can further implement fallback mechanisms if connection establishmentoffor one protocol fails or performance isdetecteddetermined to beunsatisfactory.</t>unsatisfactory. </t> <t>Information used inconnectionConnection establishment(e.g.(e.g., cryptographic resumption tokens, information about usability of certain protocols on the path, results of racing in previous connections)areis cached in the Transport Services Implementation. Applications have control over whether this information is used for a specific establishment, in order to allowtradeoffstrade-offs between efficiency and linkability.</t> <t>Flexibility afterconnectionConnection establishment is also important. Transport protocols that can migrate between multiple network-layer interfaces need to be able to process and react to interface changes. Protocols that support multiple application-layer streams need to support initiating and receiving new streams using existing connections.</t> </section> <section anchor="coexistence"> <name>Coexistence</name> <t>While the architecture of the Transport Services System is designed as an enhanced replacement for the Socket API, it need not replace it entirely on a system or platform; indeed, coexistence has been recommended for incremental deployability <xref target="RFC8170"/>. The architecture is therefore designed such that it can run alongside (or, indeed, on top of) an existing Socket API implementation; only applications builttoon the Transport Services API are managed by the system's Transport Services Implementation.</t> </section> </section> <section anchor="requirements"> <name>API and Implementation Requirements</name> <t>One goal of the architecture is to redefine the interface between applications and transports in a way that allows the transport layer to evolve and improve without fundamentally changing the contract with the application. This requiresacareful consideration of how to expose the capabilities of protocols. The architecture also encompasses system policies that can influence and inform how transport protocols use a network path or interface.</t> <t>There are several ways the Transport Services System can offer flexibility to anapplication: it can provideapplication. It can:</t> <ul spacing="normal"> <li>provide access to transport protocols and protocolfeatures; it can usefeatures;</li> <li>use these protocols across multiple paths that could have different performance and functionalcharacteristics; and it can communicatecharacteristics;</li> <li>communicate with different remote systems to optimize performance, robustness to failure, or some othermetric. Beyondmetric.</li> </ul> <t>Beyond these, if the Transport Services API remains the same over time, new protocols and features can be added to the Transport Services Implementation without requiring changes in applications for adoption. Similarly, this can provide a common basis for utilizing information about a network path or interface, enabling evolution below the transport layer.</t> <t>The normative requirements described in this section allow Transport Services APIs and the Transport Services Implementation to provide this functionality without causing incompatibility or introducing security vulnerabilities.</t> <section anchor="provide-common-apis-for-common-features"> <name>Provide Common APIs for Common Features</name> <t>Any functionality that is common across multiple transport protocolsSHOULD<bcp14>SHOULD</bcp14> be made accessible through a unified set of calls using the Transport Services API. As a baseline, any Transport Services APISHOULD<bcp14>SHOULD</bcp14> allow access to the minimal set of features offered by transport protocols <xref target="RFC8923"/>. If that minimal set is updated or expanded in the future, the Transport Services API ought to be extended to match.</t> <t>An application can specify constraints and preferences for the protocols, features, and network interfaces it will use via Properties. Properties are used by an application to declare its preferences for how the transport service should operate at each stage in the lifetime of a connection. Transport Properties are subdivided intoSelectionthe following:</t> <ul spacing="normal"> <li>Selection Properties, which specify which paths and Protocol Stacks can be used and are preferred by theapplication; Connectionapplication;</li> <li>Connection Properties, which inform decisions made duringconnectionConnection establishment and fine-tune the established connection;and Messageand</li> <li>Message Properties, which can be set on individualMessages.</t>Messages.</li> </ul> <t>It isRECOMMENDED<bcp14>RECOMMENDED</bcp14> that the Transport Services APIoffers propertiesoffer Properties that are common to multiple transport protocols. This enables a Transport Services System to appropriately select between protocols that offer equivalent features. Similarly, it isRECOMMENDED<bcp14>RECOMMENDED</bcp14> that the Properties offered by the Transport Services APIarebe applicable to a variety ofnetwork layernetwork-layer interfaces and paths,which permitsto permit racing of different network paths without affecting the applications using the API. Each is expected to have a default value.</t> <t>It isRECOMMENDED<bcp14>RECOMMENDED</bcp14> that the default values for Propertiesarebe selected to ensure correctness for the widest set of applications, while providing the widest set of options for selection. For example, since both applications that require reliability and those that do not require reliability can function correctly when a protocol provides reliability, reliability ought to be enabled by default. As another example, the default value for a Property regarding the selection of network interfaces ought to permit as many interfaces as possible.</t> <t>Applications using the Transport Services API need to be designed to be robust to the automated selection provided by the Transport Services System. This automated selection is constrained by theproperties andpreferences expressed by the application and requires applications to explicitly setpropertiesProperties that define any necessary constraints on protocol, path, and interface selection.</t> </section> <section anchor="allow-access-to-specialized-features"> <name>Allow Access to Specialized Features</name> <t>There are applications that will need to control fine-grained details of transport protocols to optimize their behavior and ensure compatibility with remote systems. It is thereforeRECOMMENDED<bcp14>RECOMMENDED</bcp14> that the Transport Services API and the Transport Services Implementation permit more specialized protocol features to be used.</t><t>A<t>Some specializedfeaturefeatures could be needed by an application only when using a specificprotocol,protocol and not when using others. For example, if an application is using TCP, it could require control over the User Timeout Option for TCP <xreftarget="RFC5482"/>; these optionstarget="RFC5482"/>. Such features would not take effect for other transport protocols. In such cases, the API ought to expose the features in such a way that they take effect when a particular protocol isselected,selected but do not imply that only that protocol could be used. For example, if the API allows an application to specify a preferenceto usefor using the User Timeout Option, communication would not fail when a protocol such as UDP is selected.</t> <t>Other specialized features, however, can also be strictly required by an application and thus further constrain the set of protocols that can be used. For example, if an application requires support for automatic handover or failover for a connection, only Protocol Stacks that provide this feature are eligible to be used, e.g., Protocol Stacks that include a multipath protocol or a protocol that supports connection migration. A Transport Services API needs to allow applications to define such requirements and constrain the options available to a Transport Services Implementation. Since such options are not part of the core/common features, it will generally be simple for an application to modify its set of constraints and change the set of allowable protocol features without changing the core implementation.</t> <t>To control these specialized features, the application can declare itspreference –preference: whether the presence of a specific feature is prohibited, should be avoided, can be ignored, is preferred, or is required in thepre-establishmentpreestablishment phase. An implementation of a Transport Services API would honor this preference and allow the application to query the availability of each specialized feature afterasuccessful establishment.</t> </section> <section anchor="equivalence"> <name>Select Between Equivalent Protocol Stacks</name> <t>A Transport Services Implementation can attempt to use, and selectbetweenbetween, multiple Protocol Stacks based on the Selection and Connection Properties communicated by the application, along with any Security Parameters. The implementation can only attempt to use multiple Protocol Stacks when they are "equivalent", which means that the stacks can provide the same Transport Properties and interface expectations as requested by the application. Equivalent Protocol Stacks can be safely swapped or raced in parallel (see <xref target="racing"/>) duringconnectionConnection establishment.</t> <t>The following two examples show non-equivalent Protocol Stacks:</t> <ul spacing="normal"> <li> <t>If the application requires preservation ofmessageMessage boundaries, a Protocol Stack that runs UDP as the top-level interface to the application is not equivalent to a Protocol Stack that runs TCP as the top-level interface. A UDP stack would allow an application to read outmessageMessage boundaries based on datagrams sent from the remote system, whereas TCP does not preservemessageMessage boundaries on itsown,own but needs a framing protocol on top to determinemessageMessage boundaries.</t> </li> <li> <t>If the application specifies that it requires reliable transmission of data, then a Protocol Stack using UDP without any reliability layer on top would not be allowed to replace a Protocol Stack using TCP.</t> </li> </ul> <t>The following example showsEquivalentequivalent Protocol Stacks:</t> <ul spacing="normal"> <li> <t>If the application does not require reliable transmission of data, then a Protocol Stack that adds reliability could be regarded as anEquivalentequivalent Protocol Stack as long as providing this would not conflict with any other application-requestedproperties.</t>Properties.</t> </li> </ul> <t>A Transport Services Implementation can race different security protocols, e.g., if the System Policy is explicitly configured to consider them equivalent. A Transport Servicesimplementation SHOULDImplementation <bcp14>SHOULD</bcp14> only race Protocol Stacks where the transport security protocols within the stacks are identical. To ensure that security protocols are not incorrectly swapped, a Transport Services ImplementationMUST<bcp14>MUST</bcp14> only select Protocol Stacks that meet application requirements(<xref target="RFC8922"/>).<xref target="RFC8922"/>. A Transport Services ImplementationMUST NOT<bcp14>MUST NOT</bcp14> automatically fall back from secure protocols to insecureprotocols,protocols or fall back to weaker versions of secure protocols. A Transport Services ImplementationMAY<bcp14>MAY</bcp14> allow applications to explicitly specify which versions of a protocol ought to be permitted, e.g., to allow a minimum version of TLS 1.2in caseif TLS 1.3 is not available.</t> <t>A Transport Services ImplementationMAY<bcp14>MAY</bcp14> specify securitypropertiesProperties relating to how the system operates (e.g., requirements, prohibitions, and preferences for the use of DNS Security Extensions (DNSSEC) or DNS over HTTPS (DoH)).</t> </section> <section anchor="maintain-interoperability"> <name>Maintain Interoperability</name> <t>It is important to note that neither the Transport Services API <xreftarget="I-D.ietf-taps-interface"/>target="RFC9622"/> nor the guidelines for implementation of the TransportServiceServices System <xreftarget="I-D.ietf-taps-impl"/>target="RFC9623"/> define new protocols or protocol capabilities that affect what is communicated across the network. A Transport Services SystemMUST NOT<bcp14>MUST NOT</bcp14> require that a peer on the other side of a connectionusesuse the same API or implementation. A Transport Services Implementation acting as a connection initiator is able to communicate with any existing Endpoint that implements the transport protocol(s) and all the requiredpropertiesProperties selected. Similarly, a Transport Services Implementation acting as a Listener can receive connections for any protocol that is supported from an existing initiator that implements the protocol,independentindependently of whether or not the initiator uses the Transport ServicesSystem or not.</t>System.</t> <t>A Transport ServicesImplemenationImplementation makes decisions that select protocols and interfaces. In normal use, a given version of a Transport Services SystemSHOULD<bcp14>SHOULD</bcp14> result in consistent protocol and interface selection decisions for the same networkconditionsconditions, given the same set of Properties. This is intended to provide predictable outcomes to the application using the API.</t> </section> <section anchor="support-monitoring"> <name>Support Monitoring</name> <t>The Transport Services API increases the layer of abstraction for applications, and it enables greater automation below the API. Such increased abstraction comes at the cost of increased complexity when application programmers,usersusers, or system administrators try to understand why any issues and failures may be happening. A Transport ServicessystemsSystem should therefore offer monitoring functions that provide relevant debug and diagnostics information. For example, such monitoring functions could indicate the protocol(s) in use, the number of open connections per protocol, and any statistics that these protocols may offer.</t> </section> </section> <section anchor="concepts"> <name>Transport Services Architecture and Concepts</name> <t>This sectionof the documentdescribes the architecture non-normatively and explains the operation of a Transport Services Implementation. The concepts defined in this document are intended primarily for use in the documents and specifications that describe the Transport Services System. This includes the architecture, the Transport ServicesAPIAPI, and the associated Transport Services Implementation. While the specific terminology can be used in some implementations, it is expected that there will remain a variety of terms used by running code.</t> <t>The architecture divides the concepts for the Transport Services System into two categories:</t> <ol spacing="normal" type="1"><li> <t>API concepts, which are intended to be exposed to applications; and</t> </li> <li> <t>System-implementation concepts, which are intended to be internally used by a Transport Services Implementation.</t> </li> </ol> <t>The following diagram summarizes the top-level concepts in a Transport Services System and how they relate to one another.</t> <figure anchor="fig-abstractions"> <name>Concepts and Relationships in the Architecture of the Transport Services System</name> <artwork><![CDATA[ +-----------------------------------------------------+ | Application | +-+----------------+------^-------+--------^----------+ | | | | | pre- | data | events establishment | transfer | | | establishment | termination | | | | | | | +--v------v-------v+ | +-v-------------+ Connection(s) +-------+----------+ | Transport +--------+---------+ | | Services | | | API | +-------------+ | +------------------------+--+ Framer(s) |-----------+ | +-------------+ +------------------------|----------------------------+ | Transport | | | System | +-----------------+ | | Implementation | | Cached | | | | | State | | | (Candidate Gathering) | +-----------------+ | | | | | (Candidate Racing) | +-----------------+ | | | | System | | | | | Policy | | | +----------v-----+ +-----------------+ | | | Protocol | | +-------------+ Stack(s) +----------------------+ +-------+--------+ V +-----------------------------------------------------+ |Network LayerNetwork-Layer Interface | +-----------------------------------------------------+ ]]></artwork> </figure> <t>The Transport Services Implementation includes the Cached State and System Policy.</t> <t>The System Policy provides input from an operating system or other global preferences that can constrain or influence how an implementation will gather Candidate Paths and Protocol Stacks and race the candidates when establishing a Connection. As the details of System Policy configuration and enforcement are largelyplatform-dependent on the platform andimplementation- dependent,implementation and do not affect application-level interoperability, the Transport Services API <xreftarget="I-D.ietf-taps-interface"/>target="RFC9622"/> does not specify an interface for reading or writing System Policy.</t> <t>The Cached State is the state and history that the Transport Services Implementation keeps for each set of associated Endpoints that have previously been used. An application ought to explicitly request any required ordesired propertiespreferred Properties via the Transport Services API.</t> <section anchor="transport-services-api-concepts"> <name>Transport Services API Concepts</name> <t>Fundamentally, a Transport Services API needs to provide Connection objects (<xref target="objects"/>) that allow applications to establishcommunication,communication and then send and receive data. These could be exposed as handles or referenced objects, depending on the chosen programming language.</t> <t>Beyond the Connection objects, there are several high-level groups of actions that any Transport Services API needs to provide:</t> <ul spacing="normal"> <li><t>Pre-establishment<t>Preestablishment (<xref target="preestablishment"/>) encompasses thepropertiesProperties that an application can pass to describe its intent, requirements, prohibitions, and preferences for its networking operations. ThesepropertiesProperties apply to multiple transport protocols, unless otherwise specified. Properties specified duringpre-establishmentpreestablishment can have a large impact on the rest of the interface: they modify how establishment occurs,theyinfluence the expectations around data transfer, andtheydetermine the set of events that will be supported.</t> </li> <li> <t>Establishment (<xref target="establishment"/>) focuses on the actions that an application takes on the Connection objects to prepare for data transfer.</t> </li> <li> <t>DataTransfertransfer (<xref target="datatransfer"/>) consists of how an application represents the data to be sent and received, the functions required to send and receive that data, and how the application is notified of the status of its data transfer.</t> </li> <li> <t>EventHandlinghandling (<xref target="events"/>) defines categories of notifications that an application can receive during the lifetime of a Connection. Events also provide opportunities for the application to interact with the underlying transport by querying state or updating maintenance options.</t> </li> <li> <t>Termination (<xref target="termination"/>) focuses on the methods by which data transmission isstopped,stopped and connection state is torn down.</t> </li> </ul> <t>The diagram below provides a high-level view of the actions and events during the lifetime of a Connection object. Note that some actions are alternatives (e.g., whether to initiate a connection ortolisten for incoming connections), while others are optional (e.g., setting Connection and Message Properties inpre-establishment)preestablishment) or have been omitted for brevity and simplicity.</t> <figure anchor="fig-lifetime"> <name>ThelifetimeLifetime of a Connectionobject</name>Object</name> <artwork><![CDATA[Pre-establishmentPreestablishment : Established : Termination ----------------- : ----------- : ----------- : : +-- Local Endpoint : Message : +-- Remote Endpoint : Receive() | : +-- Transport Properties : Send() | : +-- Security Parameters : | : | : | : | InitiateWithSend() | Close() : | +---------------+ Initiate() +-----+------+ Abort() : +---+ Preconnection |------------->| Connection |-----------> Closed +---------------+ Rendezvous() +------------+ : Listen() | : | | : | : | v : v : | Connection : +----------+ : | Ready : | Listener |----------------------+ : +----------+ Connection Received : : : ]]></artwork> </figure> <t>In this diagram, the lifetime of a Connection object is divided into three phases:pre-establishment,preestablishment, the Established state, andTermination.</t> <t>Pre-establishmenttermination of a Connection.</t> <t>Preestablishment is based around a Preconnectionobject, that containsobject containing various sub-objects that describe thepropertiesProperties and parameters of desired Connections (Local and Remote Endpoints, Transport Properties, and Security Parameters). A Preconnection can be used to start listening for inboundconnections,connections -- in which case a Listener object iscreated,created -- or can be used to establish a new connection directly using <tt>Initiate</tt> (for outbound connections) or <tt>Rendezvous</tt> (for peer-to-peer connections).</t> <!-- [rfced] Please review usage of <tt> in this document, and let us know if any updates are needed. For example, we see "to initiate a connection" (no <tt>) and "to Initiate a Connection" in the XML file. --> <t>Once a Connection is in the Established state, an application can send and receive Messageobjects,objects and can receive state updates.</t> <t>Closing or aborting aconnection,Connection, either locally or from the peer, can terminate aconnection.</t>Connection.</t> <section anchor="endpoint-objects"> <name>Endpoint Objects</name> <t>An Endpoint Identifier specifies one side of a transport connection. Endpoints can be Local Endpoints or Remote Endpoints, and the Endpoint Identifiers can respectively represent an identity that the application uses for the source or destination of a connection. An Endpoint Identifier can be specified at various levels of abstraction. An Endpoint Identifier at a higher level of abstraction (such as a hostname) can be resolved to more concrete identities (such as IP addresses). A Remote Endpoint Identifier can also represent a multicast group or anycast address. In the case of multicast,this selectsa multicast transport will be selected for communication.</t><ul<dl spacing="normal"><li> <t>Remote<dt>Remote EndpointIdentifier: TheIdentifier:</dt><dd>The Remote Endpoint Identifier represents the application's identifier for a peer that can participate in a transportconnection;connection, for example, the combination of a DNS name for the peer and a servicename/port.</t> </li> <li> <t>Localname/port.</dd> <dt>Local EndpointIdentifier: TheIdentifier:</dt><dd>The Local Endpoint Identifier represents the application's identifier for itself that it uses for transportconnections;connections, for example, a local IP address andport.</t> </li> </ul>port.</dd> </dl> </section> <section anchor="objects"> <name>Connections and Related Objects</name><ul<dl spacing="normal"><li> <t>Connection: A<dt>Connection:</dt><dd>A Connection object represents one or more active transport protocol instances that can send and/or receive Messages between Local and Remote Endpoints. It is an abstraction that represents the communication. The Connection object holds state pertaining to the underlying transport protocol instances and any ongoing data transfers. For example, an active Connection can represent a connection-oriented protocol such as TCP, or it can represent afully-specifiedfully specified 5-tuple for a connectionless protocol such as UDP, where the Connection remains an abstraction at the endpoints. It can also represent a pool of transport protocol instances, e.g., a set of TCP and QUIC connections to equivalent endpoints, or a stream of amulti-streamingmultistreaming transport protocol instance. Connections can be created from a Preconnection or by aListener.</t> </li> <li> <t>Preconnection: AListener.</dd> <dt>Preconnection:</dt><dd>A Preconnection object is a representation of a Connection that has not yet been established. It has state that describes parameters of the Connection: the Local Endpoint Identifier from which that Connection will be established, the Remote Endpoint Identifier(<xref target="preestablishment"/>)to which it will connect, and Transport Properties that influence the paths and protocols a Connection will use. A Preconnection can be either fully specified (representing a single possibleConnection),Connection) orit can bepartially specified (representing a family of possible Connections). The Local Endpoint (<xref target="preestablishment"/>) is required for a Preconnection used to <tt>Listen</tt> for incomingConnections,Connections but is optional if it is used to <tt>Initiate</tt> a Connection. The Remote Endpoint Identifier is required in a Preconnection that is used to <tt>Initiate</tt> aConnection,Connection but is optional if it is used to <tt>Listen</tt> for incoming Connections. The Local Endpoint Identifier and the Remote Endpoint Identifier are both required if a peer-to-peer <tt>Rendezvous</tt> is to occur based on thePreconnection.</t> </li> <li> <t>Transport Properties: TransportPreconnection.</dd> <dt>Transport Properties:</dt><dd><t>Transport Properties allow the application to expresstheirrequirements, prohibitions, and preferences and configure a Transport Services Implementation. There are three kinds of Transport Properties: </t><ul<dl spacing="normal"><li> <t>Selection<dt>Selection Properties (<xreftarget="preestablishment"/>): Selectiontarget="preestablishment"/>):</dt><dd>Selection Properties can only be specified on aPreconnection.</t> </li> <li> <t>ConnectionPreconnection.</dd> <dt>Connection Properties (<xreftarget="preestablishment"/>): Connectiontarget="preestablishment"/>):</dt><dd>Connection Properties can be specified on a Preconnection and changed on theConnection.</t> </li> <li> <t>MessageConnection.</dd> <dt>Message Properties (<xreftarget="datatransfer"/>): Messagetarget="datatransfer"/>):</dt><dd>Message Properties can be specified as defaults on a Preconnection or aConnection,Connection and can also be specified during data transfer to affect specificMessages.</t> </li> </ul> </li> <li> <t>Listener: AMessages.</dd> </dl> </dd> <dt>Listener:</dt><dd>A Listener object accepts incoming transport protocol connections from Remote Endpoints and generates corresponding Connection objects. It is created from a Preconnection object that specifies the type of incoming Connections it willaccept.</t> </li> </ul>accept.</dd> </dl> </section> <section anchor="preestablishment"><name>Pre-establishment</name> <ul<name>Preestablishment</name> <dl spacing="normal"><li> <t>Selection Properties: The Selection<dt>Selection Properties:</dt><dd>Selection Properties consist of thepropertiesProperties that an application can set to influence the selection of paths between the Local and Remote Endpoints,toinfluence the selection of transport protocols, ortoconfigure the behavior of generic transport protocol features. ThesepropertiesProperties can take the form of requirements, prohibitions, or preferences. Examples ofpropertiesProperties that influence path selection include the interface type (such as a Wi-Ficonnection,connection or a Cellular LTE connection), requirements around the largest Message that can be sent, or preferences for throughput and latency. Examples ofpropertiesProperties that influence protocol selection and configuration of transport protocol features include reliability, multipath support, andfast open support.</t> </li> <li> <t>Connection Properties: The Connectionsupport for TCP Fast Open.</dd> <dt>Connection Properties:</dt><dd>Connection Properties are used to configure protocol-specific options and control per-connection behavior of a Transport Services Implementation; for example, a protocol-specific Connection Property can express that if TCP is used, the implementation ought to use the User Timeout Option. Note that the presence of such a property does not require that a specific protocolwillbe used. In general, thesepropertiesProperties do not explicitly determine the selection of paths orprotocols,protocols but can be used by an implementation duringconnectionConnection establishment. Connection Properties are specified on a Preconnection prior to Connectionestablishment,establishment and can be modified on the Connection later. Changes made to Connection Properties after Connection establishment take effect on a best-effortbasis.</t> </li> <li> <t>Security Parameters: Securitybasis.</dd> <dt>Security Parameters:</dt><dd>Security Parameters define an application's requirements for authentication and encryption on a Connection. They are used byTransport Securitytransport security protocols (such as those described in <xref target="RFC8922"/>) to establish secure Connections. Examples of parameters that can be set include local identities, private keys, supported cryptographic algorithms, and requirements for validating trust of remote identities. Security Parameters are primarily associated with a Preconnection object, butpropertiesProperties related to identities can be associated directly withEndpoints.</t> </li> </ul>Endpoints.</dd> </dl> </section> <section anchor="establishment"> <name>Establishment Actions</name><ul<dl spacing="normal"><li> <t>Initiate: The<dt>Initiate:</dt><dd>The primary action that an application can take to create a Connection to a RemoteEndpoint,Endpoint and prepare any required local or remote state to enable the transmission of Messages. For some protocols, this will initiate aclient-to-server styleclient-to-server-style handshake; for other protocols, this will just establish local state (e.g., with connectionless protocols such as UDP). The process of identifying options for connecting, such as resolution of the Remote Endpoint Identifier, occurs in response tothe <tt>Initiate</tt> call.</t> </li> <li> <t>Listen: Enablescalling <tt>Initiate</tt>.</dd> <dt>Listen:</dt><dd>Enables a Listener to accept incoming connections. The Listener will then create Connection objects as incoming connections are accepted (<xref target="events"/>). Listeners by default register with multiple paths, protocols, and Local Endpoints, unless constrained by Selection Properties and/or the specified Local Endpoint Identifier(s). Connections can be accepted on any of the available paths orendpoints.</t> </li> <li> <t>Rendezvous: Theendpoints.</dd> <dt>Rendezvous:</dt><dd>The action of establishing a peer-to-peer connection with a Remote Endpoint. It simultaneously attempts to initiate a connection to a Remote Endpoint while listening for an incoming connection from that Endpoint. The process of identifying options for the connection, such as resolution of the Remote Endpoint Identifier(s), occurs in response tothe <tt>Rendezvous</tt> call.calling <tt>Rendezvous</tt>. As with Listeners, the set of local paths and endpoints is constrained by Selection Properties. If successful,thecalling <tt>Rendezvous</tt>callgenerates and asynchronously returns a Connection object to represent the established peer-to-peer connection. The processes by which connections are initiated during a <tt>Rendezvous</tt> action will depend on the set of Local and Remote Endpoints configured on the Preconnection. For example, if the Local and Remote Endpoints are TCP host candidates, then a TCP simultaneous open <xref target="RFC9293"/> might be performed. However, if the set of Local Endpoints includesserver reflexiveserver-reflexive candidates, such as those provided by STUN (Session Traversal Utilities for NAT) <xreftarget="RFC5389"/>,target="RFC8489"/>, a <tt>Rendezvous</tt> action will race candidates in the style of the ICE (InteractiveConnectionConnectivity Establishment) algorithm <xref target="RFC8445"/> to perform NAT binding discovery and initiate a peer-to-peerconnection.</t> </li> </ul>connection.</dd> </dl> </section> <section anchor="datatransfer"> <name>Data Transfer Objects and Actions</name><ul<dl spacing="normal"><li> <t>Message: A<dt>Message:</dt><dd>A Message object is a unit of data that can be represented as bytes that can be transferred between two endpoints over a transport connection. The bytes within a Message are assumed to be ordered. If an application does not care about the order in which a peer receives two distinct spans of bytes, those spans of bytes are considered independent Messages. Messages are sent in the payload of IP packets. One packet can carry one or more Messages or parts of aMessage.</t> </li> <li> <t>Message Properties: MessageMessage.</dd> <dt>Message Properties:</dt><dd>Message Properties are used to specify details about Message transmission. They can be specified directly on individualMessages,Messages or can be set on a Preconnection or Connection as defaults. ThesepropertiesProperties might only apply to how a Message is sent (such as how the transport will treat prioritization andreliability),reliability) but can also includepropertiesProperties that specific protocols encode and communicate to the Remote Endpoint. When receiving Messages, Message Properties can contain information about the received Message, such as metadata generated at the receiver and informationsignalledsignaled by the Remote Endpoint. For example, a Message can be marked with a Message Property indicating that it is the final Message on aConnection.</t> </li> <li> <t>Send: TheConnection.</dd> <dt>Send:</dt><dd>The <tt>Send</tt> actionto transmittransmits a Message over a Connection to the Remote Endpoint. The interface to <tt>Send</tt> can accept Message Properties specific to how the Message content is to be sent. The status of the <tt>Send</tt>operationaction is delivered back to the sending application in an event (<xreftarget="events"/>).</t> </li> <li> <t>Receive: Antarget="events"/>).</dd> <dt>Receive:</dt><dd>The <tt>Receive</tt> actionthatindicates that the application is ready to asynchronously accept a Message over a Connection from a Remote Endpoint, while the Message content itself will be delivered in an event (<xref target="events"/>). The interface to <tt>Receive</tt> can include Message Properties specific to the Message that is to be delivered to theapplication.</t> </li> <li> <t>Framer: Aapplication.</dd> <dt>Framer:</dt><dd>A Framer is a data translation layer that can be added to a Connection. Framers allow extending a Connection's Protocol Stack to define how to encapsulate or encode outboundMessages,Messages and how to decapsulate or decode inbound data into Messages. In this way,messageMessage boundaries can be preserved when using a Connection object, even with a protocol that otherwise presents unstructured streams, such as TCP. This is designed based on the fact that many of the current application protocols evolved over TCP, which does not providemessageMessage boundary preservation, and since many of these protocols requiremessageMessage boundaries to function, eachapplication layerapplication-layer protocol has defined its own framing. For example, when an HTTP application sends and receives HTTPmessagesMessages over a byte-stream transport, it must parse the boundaries of HTTPmessagesMessages from the stream ofbytes.</t> </li> </ul>bytes.</dd> </dl> </section> <section anchor="events"> <name>Event Handling</name> <t>The following categories of events can be delivered to an application:</t><ul<dl spacing="normal"><li> <t>Connection Ready: Signals<dt>Connection Ready:</dt><dd>Signals to an application that a given Connection is ready to send and/or receive Messages. If the Connection relies on handshakes to establish state between peers, then it is assumed that these steps have beentaken.</t> </li> <li> <t>Connection Closed: Signalstaken.</dd> <dt>Connection Closed:</dt><dd>Signals to an application that a given Connection is no longer usable for sending or receiving Messages. The event delivers a reason or error to the application that describes the nature of thetermination.</t> </li> <li> <t>Connection Received: Signalstermination.</dd> <dt>Connection Received:</dt><dd>Signals to an application that a given Listener has received aConnection.</t> </li> <li> <t>Message Received: DeliversConnection.</dd> <dt>Message Received:</dt><dd>Delivers received Message content to the application, based on a <tt>Receive</tt> action. To allow an application to limit the occurrence of such events, each call to <tt>Receive</tt> will be paired with a single <tt>Receive</tt> event. This can include an error if the <tt>Receive</tt> action cannot be satisfied, e.g., due to the Connection beingclosed.</t> </li> <li> <t>Message Sent: Notifiesclosed.</dd> <dt>Message Sent:</dt><dd>Notifies the application of the status of its <tt>Send</tt> action. This might indicate a failure if the Message cannot besent,sent oran indicationmight indicate that the Message has been processed by the Transport ServicesSystem.</t> </li> <li> <t>PathSystem.</dd> <dt>Path PropertiesChanged: NotifiesChanged:</dt><dd>Notifies the application that apropertyProperty of the Connection has changed that might influence how and where data is sent and/orreceived.</t> </li> </ul>received.</dd> </dl> </section> <section anchor="termination"> <name>Termination Actions</name><ul<dl spacing="normal"><li> <t>Close: The<dt>Close:</dt><dd>The action an application takes on a Connection to indicate that it no longer intends to senddata,data or is no longer willing to receivedata, and that thedata. The protocol should signal this state to the Remote Endpoint if the transport protocolallows this.permits it. (Note that this is distinct from the concept of "half-closing" a bidirectional connection, such as when a FIN is sent in one direction of a TCP connection <xref target="RFC9293"/>. The end of a stream can also be indicated using Message Properties whensending.)</t> </li> <li> <t>Abort:sending.)</dd> <dt>Abort:</dt><dd> The action the application takes on a Connection to indicatea <tt>Close</tt> and also indicatethat the Transport Services System should not attempt to deliver any outstandingdata,data and that it should immediately close and drop the connection. This is intended for immediate, usually abnormal, termination of aconnection.</t> </li> </ul>connection.</dd> </dl> </section> <section anchor="connection-groups"> <name>Connection Groups</name> <t>A Connection Group is a set of Connections that shares Connection Properties andcached stateCached State generated by protocols. A Connection Group represents state for managing Connections within a singleapplication,application and does not require end-to-end protocol signaling. For transport protocols that support multiplexing, only Connections within the same Connection Group are allowed to be multiplexed together.</t> <t>The API allows a Connection to be created from another Connection. This adds the new Connection to the Connection Group. A change to one of the Connection Properties on any Connection in the Connection Group automatically changes the Connection Property for all others. All Connections in a Connection Group share the same set of Connection Properties except for the Connection Priority. These Connection Properties are said to be entangled.</t> <t>Passive Connections can also be added to a Connection Group, e.g., when a Listener receives a new Connection that is just a new stream of analready active multi-streamingalready-active multistreaming protocol instance.</t> <t>While Connection Groups are managed by the Transport Services Implementation, an application can define different Connection Contexts for different Connection Groups to explicitly control caching boundaries, as discussed in <xref target="conn-context"/>.</t> </section> </section> <section anchor="transport-services-implementation"> <name>Transport Services Implementation</name> <t>This section defines the key architectural concepts for the Transport Services Implementation within the Transport Services System.</t> <t>The Transport Services System consists of the Transport Services Implementation and the Transport Services API. The Transport Services Implementation consists of all objects and protocol instances used internally to a system or library to implement the functionality needed to provide a transport service across a network, as required by the abstract interface.</t><ul<dl spacing="normal"><li> <t>Path: Represents<dt>Path:</dt><dd>Represents an available set ofpropertiesProperties that a Local Endpoint can use to communicate with a Remote Endpoint, such as routes, addresses, and physical and virtual networkinterfaces.</t> </li> <li> <t>Protocol Instance: Ainterfaces.</dd> <dt>Protocol Instance:</dt><dd>A single instance of one protocol, including any state necessary to establish connectivity or send and receiveMessages.</t> </li> <li> <t>Protocol Stack: AMessages.</dd> <dt>Protocol Stack:</dt><dd>A set ofProtocol Instancesprotocol instances (including relevant application, security, transport, or Internet protocols) that are used together to establish connectivity or send and receive Messages. A single stack can be simple(a single transport protocol instance(e.g., one application stream carried TCP running overIP),IP) orit can becomplex(multiple(e.g,. multiple applicationprotocolstreamsgoing through a single security and transport protocol,carried overIP; or,amulti-pathmultipath transport protocoloverusing multipletransport sub-flows).</t> </li> <li> <t>Candidate Path: Onesubflows over IP).</dd> <dt>Candidate Path:</dt><dd>One path that is available to an application and conforms to the Selection Properties and System Policy, of which there can be several. Candidate Paths are identified during the gathering phase (<xref target="gathering"/>) and can be used during the racing phase (<xreftarget="racing"/>).</t> </li> <li> <t>Candidatetarget="racing"/>).</dd> <dt>Candidate ProtocolStack: OneStack:</dt><dd>One Protocol Stack that can be used by an application for aConnection,connection, for which there can be several candidates. Candidate Protocol Stacks are identified during the gathering phase (<xref target="gathering"/>) and are started during the racing phase (<xreftarget="racing"/>).</t> </li> <li> <t>System Policy: Thetarget="racing"/>).</dd> <dt>System Policy:</dt><dd>The input from an operating system or other global preferences that can constrain or influence how an implementation will gathercandidate pathsCandidate Paths and Candidate Protocol Stacks (<xref target="gathering"/>) and race the candidates during establishment (<xref target="racing"/>). Specific aspects of the System Policyeitherapply to either all Connections or only certainones,Connections, depending on the runtime context andpropertiesProperties of theConnection.</t> </li> <li> <t>Cached State: TheConnection.</dd> <dt>Cached State:</dt><dd>The state and history that the implementation keeps for each set of associated Endpoints that have been used previously. This can include DNS results, TLS session state, previous success and quality of transport protocols over certain paths, as well as other information. This caching does not imply that the same decisions are necessarily made for subsequentconnections,connections; rather, it means thatcached stateCached State is used by a Transport Services Implementation to inform functions such as choosing the candidates to be raced, selecting appropriate transport parameters, etc. An applicationSHOULD NOT<bcp14>SHOULD NOT</bcp14> rely on specific cachingbehaviour, insteadbehavior; instead, it ought to explicitly request any required ordesired propertiespreferred Properties via the Transport ServicesAPI.</t> </li> </ul>API. </dd> </dl> <section anchor="gathering"> <name>Candidate Gathering</name><ul<dl spacing="normal"><li> <t>Candidate<dt>Candidate PathSelection: CandidateSelection:</dt><dd>Candidate Path Selection represents the act of choosing one or more paths that are available to use based on the Selection Properties and any available Local and Remote Endpoint Identifiers provided by the application, as well as the policies and heuristics of a Transport Servicesimplementation.</t> </li> <li> <t>CandidateImplementation.</dd> <dt>Candidate ProtocolSelection: CandidateSelection:</dt><dd>Candidate Protocol Selection represents the act of choosing one or more sets of Protocol Stacks that are available to use based on the Transport Properties provided by the application, and the heuristics or policies within the Transport ServicesImplementation.</t> </li> </ul>Implementation.</dd> </dl> </section> <section anchor="racing"> <name>Candidate Racing</name> <t>Connection establishment attempts for a set of candidates may be performed simultaneously, synchronously, serially, or using some combination of all of these. We refer to this process as racing, borrowing terminology from Happy Eyeballs <xref target="RFC8305"/>.</t><ul<dl spacing="normal"><li> <t>Protocol<dt>Protocol OptionRacing: ProtocolRacing:</dt><dd>Protocol Option Racing is the act of attempting to establish, or scheduling attempts to establish, multiple Protocol Stacks that differ based on the composition of protocols or the options used forprotocols.</t> </li> <li> <t>Path Racing: Pathprotocols.</dd> <dt>Path Racing:</dt><dd>Path Racing is the act of attempting to establish, or scheduling attempts to establish, multiple Protocol Stacks that differ based on a selection from the availablePaths.paths. Since differentPathspaths will have distinct configurations (see <xref target="RFC7556"/>) for local addresses and DNS servers, attempts across differentPathspaths will perform separate DNS resolution steps, which can lead to further racing of the resolved Remote EndpointIdentifiers.</t> </li> <li> <t>RemoteIdentifiers.</dd> <dt>Remote EndpointRacing: RemoteRacing:</dt><dd>Remote Endpoint Racing is the act of attempting to establish, or scheduling attempts to establish, multiple Protocol Stacks that differ based on the specific representation of the Remote Endpoint Identifier, such as a particular IP address that was resolved from a DNShostname.</t> </li> </ul>hostname.</dd> </dl> </section> <section anchor="conn-context"> <name>Separating Connection Contexts</name> <t>A Transport Services Implementation can by default share storedpropertiesProperties across Connections within an application, such as cached protocol state, cached path state, and heuristics. This provides efficiency and convenience for the application, since the Transport Services System can automatically optimize behavior.</t> <t>The Transport Services API can allow applications to explicitly define Connection Contexts that force separation of Cached State and Protocol Stacks. For example, a web browser application could use Connection Contexts with separate caches when implementing different tabs. Possible reasons to isolate Connections using separate Connection Contextsinclude:</t>include privacy concerns regarding:</t> <ul spacing="normal"> <li><t>Privacy concerns about re-using<t>reusing cached protocolstate thatstate, as this can lead to linkability. Sensitive state could include TLS session state <xref target="RFC8446"/> and HTTP cookies <xref target="RFC6265"/>. These concerns could be addressed using Connection Contexts with separate caches, such as for different browser tabs.</t> </li> <li><t>Privacy concerns about allowing<t>allowing Connections to multiplex together, which can tell a Remote Endpoint that all of the Connections are coming from the same application. Using Connection Contexts avoids the Connections being multiplexed inaan HTTP/2 or QUIC stream.</t> </li> </ul> </section> </section> </section> <section anchor="iana-considerations"> <name>IANA Considerations</name> <t>This document has noactions for IANA.</t>IANA actions.</t> </section> <section anchor="security-and-privacy-considerations"> <name>Security and Privacy Considerations</name> <t>The Transport Services System does not recommend the use of specific security protocols or algorithms. Its goal is to offer ease of use for existing protocols by providing a generic security-related interface. Each provided interface translates to an existing protocol-specific interface provided by supported security protocols. For example, trust verification callbacks are common parts of TLS APIs; a Transport Services API exposes similar functionality <xref target="RFC8922"/>.</t> <t>As described above in <xref target="equivalence"/>, if a Transport Services Implementation races between two different Protocol Stacks, both need to use the same security protocols and options. However, a Transport Services Implementation can race different security protocols, e.g., if the application explicitly specifies that it considers them equivalent.</t> <t>The application controls whether information from previous racingattempts,attempts or other information about past communications that was cached by the Transport Services System is used during establishment. This allows applications to maketradeoffstrade-offs between efficiency (through racing) and privacy (via information that might leak from the cache toward an on-path observer). Some applications have features(e.g.(e.g., "incognito mode") that align with this functionality.</t> <t>Applications need to ensure that they use security APIs appropriately. In cases where applications use an interface to provide sensitive keying material, e.g., access to private keys or copies of pre-shared keys (PSKs), key use needs to be validated and scoped to the intended protocols and roles. For example, if an application provides a certificate to only be used as client authentication for outbound TLS and QUIC connections, the Transport Services SystemMUST NOT<bcp14>MUST NOT</bcp14> use this automatically in other contexts (such as server authentication for inboundconnections,connections or in otheranothersecurity protocolhandshakehandshakes thatisare not equivalent toTLS).</t>TLS). </t> <t>A Transport Services SystemMUST NOT<bcp14>MUST NOT</bcp14> automatically fall back from secure protocols to insecureprotocols,protocols or fall back to weaker versions of secure protocols (see <xref target="equivalence"/>). For example, if an application requests a specific version ofTLS,TLS but the desired version of TLS is not available, its connection will fail. As described in <xref target="equivalence"/>, the Transport Services API can allow applications to specify minimum versions that are allowed to be used by the Transport Services System.</t> </section><section anchor="acknowledgements"> <name>Acknowledgements</name> <t>This work has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreements No. 644334 (NEAT), No. 688421 (MAMI) and No 815178 (5GENESIS).</t> <t>This work has been supported by Leibniz Prize project funds of DFG - German Research Foundation: Gottfried Wilhelm Leibniz-Preis 2011 (FKZ FE 570/4-1).</t> <t>This work has been supported by the UK Engineering and Physical Sciences Research Council under grant EP/R04144X/1.</t> <t>Thanks to Reese Enghardt, Max Franke, Mirja Kuehlewind, Jonathan Lennox, and Michael Welzl for the discussions and feedback that helped shape the architecture of the system described here. Particular thanks is also due to Philipp S. Tiesel and Christopher A. Wood, who were both co-authors of this specification as it progressed through the TAPS working group. Thanks as well to Stuart Cheshire, Josh Graessley, David Schinazi, and Eric Kinnear for their implementation and design efforts, including Happy Eyeballs, that heavily influenced this work.</t> </section></middle> <back> <references> <name>References</name> <references anchor="sec-normative-references"> <name>Normative References</name><reference anchor="RFC2119"> <front> <title>Key words for use in RFCs to Indicate Requirement Levels</title> <author fullname="S. Bradner" initials="S." surname="Bradner"/> <date month="March" year="1997"/> <abstract> <t>In many standards track documents several words are used to signify the requirements in the specification. These words are often capitalized. This document defines these words as they should be interpreted in IETF documents. This document specifies an Internet Best Current Practices for the Internet Community, and requests discussion and suggestions for improvements.</t> </abstract> </front> <seriesInfo name="BCP" value="14"/> <seriesInfo name="RFC" value="2119"/> <seriesInfo name="DOI" value="10.17487/RFC2119"/> </reference> <reference anchor="RFC8174"> <front> <title>Ambiguity of Uppercase vs Lowercase in RFC 2119 Key Words</title> <author fullname="B. Leiba" initials="B." surname="Leiba"/> <date month="May" year="2017"/> <abstract> <t>RFC 2119 specifies common key words that may be used in protocol specifications. This document aims to reduce the ambiguity by clarifying that only UPPERCASE usage of the key words have the defined special meanings.</t> </abstract> </front> <seriesInfo name="BCP" value="14"/> <seriesInfo name="RFC" value="8174"/> <seriesInfo name="DOI" value="10.17487/RFC8174"/> </reference><xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.2119.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8174.xml"/> </references> <references anchor="sec-informative-references"> <name>Informative References</name> <referenceanchor="POSIX">anchor="POSIX" target="https://ieeexplore.ieee.org/document/10555529"> <front><title>IEEE Std. 1003.1-2008<title>IEEE/Open Group Standard for Information Technology--- Portable Operating System Interface(POSIX). Open group Technical Standard:(POSIX(TM)) Base Specifications, Issue7</title>8</title> <author> <organization/> </author> <dateyear="2008"/> </front> </reference> <reference anchor="RFC8446"> <front> <title>The Transport Layer Security (TLS) Protocol Version 1.3</title> <author fullname="E. Rescorla" initials="E." surname="Rescorla"/> <date month="August" year="2018"/> <abstract> <t>This document specifies version 1.3 of the Transport Layer Security (TLS) protocol. TLS allows client/server applications to communicate over the Internet in a way that is designed to prevent eavesdropping, tampering, and message forgery.</t> <t>This document updates RFCs 5705 and 6066, and obsoletes RFCs 5077, 5246, and 6961. This document also specifies new requirements for TLS 1.2 implementations.</t> </abstract>year="2024"/> </front> <seriesInfoname="RFC" value="8446"/>name="IEEE Std" value="1003.1-2024"/> <seriesInfo name="DOI"value="10.17487/RFC8446"/>value="10.1109/IEEESTD.2024.10555529"/> </reference> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8446.xml"/> <!-- draft-ietf-taps-interface (RFC 9622) --> <referenceanchor="I-D.ietf-taps-interface">anchor="RFC9622" target="https://www.rfc-editor.org/info/rfc9622"> <front> <title>An Abstract ApplicationLayerProgramming Interfaceto(API) for Transport Services</title> <author initials="B." surname="Trammell" fullname="Brian Trammell"initials="B." surname="Trammell">role="editor"> <organization>Google Switzerland GmbH</organization> </author> <author initials="M." surname="Welzl" fullname="Michael Welzl"initials="M." surname="Welzl">role="editor"> <organization>University of Oslo</organization> </author> <authorfullname="Reese Enghardt"initials="R."surname="Enghardt">surname="Enghardt" fullname="Reese Enghardt"> <organization>Netflix</organization> </author> <authorfullname="Gorry Fairhurst"initials="G."surname="Fairhurst">surname="Fairhurst" fullname="Gorry Fairhurst"> <organization>University of Aberdeen</organization> </author> <authorfullname="Mirja Kühlewind"initials="M."surname="Kühlewind">surname="Kühlewind" fullname="Mirja Kühlewind"> <organization>Ericsson</organization> </author> <author initials="C. S." surname="Perkins" fullname="ColinPerkins" initials="C." surname="Perkins">Perkins"> <organization>University of Glasgow</organization> </author> <author initials="P." surname="Tiesel" fullname="Philipp S.Tiesel" initials="P. S." surname="Tiesel">Tiesel"> <organization>SAP SE</organization> </author> <authorfullname="Tommy Pauly"initials="T."surname="Pauly">surname="Pauly" fullname="Tommy Pauly"> <organization>Apple Inc.</organization> </author> <dateday="6" month="July" year="2023"/> <abstract> <t> This document describes an abstract application programming interface, API, to the transport layer that enables the selection of transport protocols and network paths dynamically at runtime. This API enables faster deployment of new protocols and protocol features without requiring changes to the applications. The specified API follows the Transport Services architecture by providing asynchronous, atomic transmission of messages. It is intended to replace the BSD sockets API as the common interface to the transport layer, in an environment where endpoints could select from multiple interfaces and potential transport protocols. </t> </abstract>month="December" year="2024"/> </front> <seriesInfoname="Internet-Draft" value="draft-ietf-taps-interface-22"/>name="RFC" value="9622"/> <seriesInfo name="DOI" value="10.17487/RFC9622"/> </reference> <!-- draft-ietf-taps-impl (RFC 9623) --> <referenceanchor="I-D.ietf-taps-impl">anchor="RFC9623" target="https://www.rfc-editor.org/info/rfc9623"> <front> <title>Implementing Interfaces to Transport Services</title> <author fullname="Anna Brunstrom" initials="A."surname="Brunstrom">surname="Brunstrom" role="editor"> <organization>Karlstad University</organization> </author> <author fullname="Tommy Pauly" initials="T."surname="Pauly">surname="Pauly" role="editor"> <organization>Apple Inc.</organization> </author> <author fullname="Reese Enghardt" initials="R." surname="Enghardt"> <organization>Netflix</organization> </author> <author fullname="Philipp S. Tiesel"initials="P. S."initials="P." surname="Tiesel"> <organization>SAP SE</organization> </author> <author fullname="Michael Welzl" initials="M." surname="Welzl"> <organization>University of Oslo</organization> </author> <dateday="5" month="June" year="2023"/> <abstract> <t> The Transport Services system enables applications to use transport protocols flexibly for network communication and defines a protocol- independent Transport Services Application Programming Interface (API) that is based on an asynchronous, event-driven interaction pattern. This document serves as a guide to implementing such a system. </t> </abstract> </front> <seriesInfo name="Internet-Draft" value="draft-ietf-taps-impl-16"/> </reference> <reference anchor="RFC8095"> <front> <title>Services Provided by IETF Transport Protocols and Congestion Control Mechanisms</title> <author fullname="G. Fairhurst" initials="G." role="editor" surname="Fairhurst"/> <author fullname="B. Trammell" initials="B." role="editor" surname="Trammell"/> <author fullname="M. Kuehlewind" initials="M." role="editor" surname="Kuehlewind"/> <date month="March" year="2017"/> <abstract> <t>This document describes, surveys, and classifies the protocol mechanisms provided by existing IETF protocols, as background for determining a common set of transport services. It examines the Transmission Control Protocol (TCP), Multipath TCP, the Stream Control Transmission Protocol (SCTP), the User Datagram Protocol (UDP), UDP-Lite, the Datagram Congestion Control Protocol (DCCP), the Internet Control Message Protocol (ICMP), the Real-Time Transport Protocol (RTP), File Delivery over Unidirectional Transport / Asynchronous Layered Coding (FLUTE/ALC) for Reliable Multicast, NACK- Oriented Reliable Multicast (NORM), Transport Layer Security (TLS), Datagram TLS (DTLS), and the Hypertext Transport Protocol (HTTP), when HTTP is used as a pseudotransport. This survey provides background for the definition of transport services within the TAPS working group.</t> </abstract>month="December" year="2024"/> </front> <seriesInfo name="RFC"value="8095"/>value="9623"/> <seriesInfo name="DOI"value="10.17487/RFC8095"/>value="10.17487/RFC9623"/> </reference><reference anchor="RFC8923"> <front> <title>A Minimal Set of Transport Services for End Systems</title> <author fullname="M. Welzl" initials="M." surname="Welzl"/> <author fullname="S. Gjessing" initials="S." surname="Gjessing"/> <date month="October" year="2020"/> <abstract><xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8095.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8923.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8922.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8303.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.9000.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.9112.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.9113.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8170.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.5482.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.9293.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8489.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8445.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8305.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.7556.xml"/> <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.6265.xml"/> </references> </references> <section anchor="acknowledgements" numbered="false"> <name>Acknowledgements</name> <t>Thisdocument recommends a minimal set of Transport Services offered by end systems and gives guidance on choosing among the available mechanisms and protocols. It is based on the set of transport features in RFC 8303.</t> </abstract> </front> <seriesInfo name="RFC" value="8923"/> <seriesInfo name="DOI" value="10.17487/RFC8923"/> </reference> <reference anchor="RFC8922"> <front> <title>A Survey ofwork has received funding from theInteraction between Security Protocols and Transport Services</title> <author fullname="T. Enghardt" initials="T." surname="Enghardt"/> <author fullname="T. Pauly" initials="T." surname="Pauly"/> <author fullname="C. Perkins" initials="C." surname="Perkins"/> <author fullname="K. Rose" initials="K." surname="Rose"/> <author fullname="C. Wood" initials="C." surname="Wood"/> <date month="October" year="2020"/> <abstract> <t>This document provides a survey of commonly used or notable network security protocols, with a focus on how they interact and integrate with applications and transport protocols. Its goal is to supplement efforts to defineEuropean Union's Horizon 2020 research andcatalog Transport Services by describing the interfaces required to add security protocols. This survey is not limited to protocols developed within the scope or context of the IETF,innovation programme under grant agreements No. 644334 (NEAT), No. 688421 (MAMI), andthose included represent a superset of features a Transport Services system may need to support.</t> </abstract> </front> <seriesInfo name="RFC" value="8922"/> <seriesInfo name="DOI" value="10.17487/RFC8922"/> </reference> <reference anchor="RFC8303"> <front> <title>On the Usage of Transport Features Provided by IETF Transport Protocols</title> <author fullname="M. Welzl" initials="M." surname="Welzl"/> <author fullname="M. Tuexen" initials="M." surname="Tuexen"/> <author fullname="N. Khademi" initials="N." surname="Khademi"/> <date month="February" year="2018"/> <abstract>No. 815178 (5GENESIS).</t> <t>Thisdocument describes howwork has been supported by:</t> <ul> <li>Leibniz Prize project funds from thetransport protocols Transmission Control Protocol (TCP), MultiPath TCP (MPTCP), Stream Control Transmission Protocol (SCTP), User Datagram Protocol (UDP),DFG - German Research Foundation: Gottfried Wilhelm Leibniz-Preis 2011 (FKZ FE 570/4-1).</li> <li>the UK Engineering andLightweight User Datagram Protocol (UDP-Lite) expose servicesPhysical Sciences Research Council under grant EP/R04144X/1.</li> </ul> <t>Thanks toapplications and how an application can configure and use the features that make up these services. It also discusses the service provided by the Low Extra Delay Background Transport (LEDBAT) congestion control mechanism. The description results in a set of transport abstractions that can be exported in a transport services (TAPS) API.</t> </abstract> </front> <seriesInfo name="RFC" value="8303"/> <seriesInfo name="DOI" value="10.17487/RFC8303"/> </reference> <reference anchor="RFC9000"> <front> <title>QUIC: A UDP-Based Multiplexed and Secure Transport</title> <author fullname="J. Iyengar" initials="J." role="editor" surname="Iyengar"/> <author fullname="M. Thomson" initials="M." role="editor" surname="Thomson"/> <date month="May" year="2021"/> <abstract> <t>This document defines the core of the QUIC transport protocol. QUIC provides applications with flow-controlled streams for structured communication, low-latency connection establishment, and network path migration. QUIC includes security measures that ensure confidentiality, integrity, and availability in a range of deployment circumstances. Accompanying documents describe the integration of TLS for key negotiation, loss detection,<contact fullname="Reese Enghardt"/>, <contact fullname="Max Franke"/>, <contact fullname="Mirja Kühlewind"/>, <contact fullname="Jonathan Lennox"/>, andan exemplary congestion control algorithm.</t> </abstract> </front> <seriesInfo name="RFC" value="9000"/> <seriesInfo name="DOI" value="10.17487/RFC9000"/> </reference> <reference anchor="RFC9112"> <front> <title>HTTP/1.1</title> <author fullname="R. Fielding" initials="R." role="editor" surname="Fielding"/> <author fullname="M. Nottingham" initials="M." role="editor" surname="Nottingham"/> <author fullname="J. Reschke" initials="J." role="editor" surname="Reschke"/> <date month="June" year="2022"/> <abstract> <t>The Hypertext Transfer Protocol (HTTP) is a stateless application-level protocol<contact fullname="Michael Welzl"/> fordistributed, collaborative, hypertext information systems. This document specifiestheHTTP/1.1 message syntax, message parsing, connection management,discussions andrelated security concerns.</t> <t>This document obsoletes portions of RFC 7230.</t> </abstract> </front> <seriesInfo name="STD" value="99"/> <seriesInfo name="RFC" value="9112"/> <seriesInfo name="DOI" value="10.17487/RFC9112"/> </reference> <reference anchor="RFC9113"> <front> <title>HTTP/2</title> <author fullname="M. Thomson" initials="M." role="editor" surname="Thomson"/> <author fullname="C. Benfield" initials="C." role="editor" surname="Benfield"/> <date month="June" year="2022"/> <abstract> <t>This specification describes an optimized expression offeedback that helped shape thesemanticsarchitecture of theHypertext Transfer Protocol (HTTP), referredsystem described here. Particular thanks are also due toas HTTP version 2 (HTTP/2). HTTP/2 enables a more efficient use of network resources and a reduced latency by introducing field compression and allowing multiple concurrent exchanges on the same connection.</t> <t>This document obsoletes RFCs 7540 and 8740.</t> </abstract> </front> <seriesInfo name="RFC" value="9113"/> <seriesInfo name="DOI" value="10.17487/RFC9113"/> </reference> <reference anchor="RFC8170"> <front> <title>Planning for Protocol Adoption and Subsequent Transitions</title> <author fullname="D. Thaler" initials="D." role="editor" surname="Thaler"/> <date month="May" year="2017"/> <abstract> <t>Over the many years since the introduction of the Internet Protocol, 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 protocols<contact fullname="Philipp S. Tiesel"/> andtechnologies<contact fullname="Christopher A. Wood"/>, who werenot designed to enable smooth transition to alternatives or to easily deploy extensions; thus, some transitions, such as the introduction of IPv6, have been difficult. This document attempts to summarize some basic principles to enable future transitions, and it also summarizes what makes for a good transition plan.</t> </abstract> </front> <seriesInfo name="RFC" value="8170"/> <seriesInfo name="DOI" value="10.17487/RFC8170"/> </reference> <reference anchor="RFC5482"> <front> <title>TCP User Timeout Option</title> <author fullname="L. Eggert" initials="L." surname="Eggert"/> <author fullname="F. Gont" initials="F." surname="Gont"/> <date month="March" year="2009"/> <abstract> <t>The TCP user timeout controls how long transmitted data may remain unacknowledged before a connection is forcefully closed. It is a local, per-connection parameter. This document specifies a new TCP option -- the TCP User Timeout Option -- that allows one end of a TCP connection to advertise its current user timeout value. This information provides advice to the other end of the TCP connection to adapt its user timeout accordingly. Increasing the user timeouts onbothendscoauthors ofa TCP connection allows it to survive extended periods without end-to-end connectivity. Decreasing the user timeouts allows busy servers to explicitly notify their clients that they will maintain the connection state only for a short time without connectivity. [STANDARDS-TRACK]</t> </abstract> </front> <seriesInfo name="RFC" value="5482"/> <seriesInfo name="DOI" value="10.17487/RFC5482"/> </reference> <reference anchor="RFC9293"> <front> <title>Transmission Control Protocol (TCP)</title> <author fullname="W. Eddy" initials="W." role="editor" surname="Eddy"/> <date month="August" year="2022"/> <abstract> <t>This document specifies the Transmission Control Protocol (TCP). TCP is an important transport-layer protocol in the Internet protocol stack, and it has continuously evolved over decades of use and growth of the Internet. Overthistime, a number of changes have been made to TCP as it was specified in RFC 793, though these have only been documented in a piecemeal fashion. This document collects and brings those changes together with the protocolspecificationfrom RFC 793. This document obsoletes RFC 793,aswell as RFCs 879, 2873, 6093, 6429, 6528, and 6691 that updated parts of RFC 793. It updates RFCs 1011 and 1122, anditshould be considered as a replacement for the portions of those documents dealing with TCP requirements. It also updates RFC 5961 by adding a small clarification in reset handling while in the SYN-RECEIVED state. The TCP header control bits from RFC 793 have also been updated based on RFC 3168.</t> </abstract> </front> <seriesInfo name="STD" value="7"/> <seriesInfo name="RFC" value="9293"/> <seriesInfo name="DOI" value="10.17487/RFC9293"/> </reference> <reference anchor="RFC5389"> <front> <title>Session Traversal Utilities for NAT (STUN)</title> <author fullname="J. Rosenberg" initials="J." surname="Rosenberg"/> <author fullname="R. Mahy" initials="R." surname="Mahy"/> <author fullname="P. Matthews" initials="P." surname="Matthews"/> <author fullname="D. Wing" initials="D." surname="Wing"/> <date month="October" year="2008"/> <abstract> <t>Session Traversal Utilities for NAT (STUN) is a protocol that serves as a tool for other protocols in dealing with Network Address Translator (NAT) traversal. It can be used by an endpoint to determineprogressed through theIP address and port allocated to it by a NAT. It can also be used to check connectivity between two endpoints, andTransport Services (TAPS) Working Group. Thanks asa keep-alive protocol to maintain NAT bindings. STUN works with many existing NATs, and does not require any special behavior from them.</t> <t>STUN is not a NAT traversal solution by itself. Rather, it is a toolwell tobe used in the context of a NAT traversal solution. This is an important change from the previous version of this specification (RFC 3489), which presented STUN as a complete solution.</t> <t>This document obsoletes RFC 3489. [STANDARDS-TRACK]</t> </abstract> </front> <seriesInfo name="RFC" value="5389"/> <seriesInfo name="DOI" value="10.17487/RFC5389"/> </reference> <reference anchor="RFC8445"> <front> <title>Interactive Connectivity Establishment (ICE): A Protocol for Network Address Translator (NAT) Traversal</title> <author fullname="A. Keranen" initials="A." surname="Keranen"/> <author fullname="C. Holmberg" initials="C." surname="Holmberg"/> <author fullname="J. Rosenberg" initials="J." surname="Rosenberg"/> <date month="July" year="2018"/> <abstract> <t>This document describes a protocol for Network Address Translator (NAT) traversal for UDP-based communication. This protocol is called Interactive Connectivity Establishment (ICE). ICE makes use of the Session Traversal Utilities<contact fullname="Stuart Cheshire"/>, <contact fullname="Josh Graessley"/>, <contact fullname="David Schinazi"/>, and <contact fullname="Eric Kinnear"/> forNAT (STUN) protocol and its extension, Traversal Using Relay NAT (TURN).</t> <t>This document obsoletes RFC 5245.</t> </abstract> </front> <seriesInfo name="RFC" value="8445"/> <seriesInfo name="DOI" value="10.17487/RFC8445"/> </reference> <reference anchor="RFC8305"> <front> <title>Happy Eyeballs Version 2: Better Connectivity Using Concurrency</title> <author fullname="D. Schinazi" initials="D." surname="Schinazi"/> <author fullname="T. Pauly" initials="T." surname="Pauly"/> <date month="December" year="2017"/> <abstract> <t>Many communication protocols operating over the modern Internet use hostnames. These often resolve to multiple IP addresses, each of which may have different performancetheir implementation andconnectivity characteristics. Since specific addresses or address families (IPv4 or IPv6) may be blocked, broken, or sub-optimal on a network, clients that attempt multiple connections in parallel have a chance of establishing a connection more quickly. This document specifies requirements for algorithmsdesign efforts, including Happy Eyeballs, thatreduceheavily influenced thisuser-visible delay and provides an example algorithm, referred to as "Happy Eyeballs". This document obsoletes the original algorithm description in RFC 6555.</t> </abstract> </front> <seriesInfo name="RFC" value="8305"/> <seriesInfo name="DOI" value="10.17487/RFC8305"/> </reference> <reference anchor="RFC7556"> <front> <title>Multiple Provisioning Domain Architecture</title> <author fullname="D. Anipko" initials="D." role="editor" surname="Anipko"/> <date month="June" year="2015"/> <abstract> <t>This document is a product of the work of the Multiple Interfaces Architecture Design team. It outlines a solution framework for some of the issues experienced by nodes that can be attached to multiple networks simultaneously. The framework defines the concept of a Provisioning Domain (PvD), which is a consistent set of network configuration information. PvD-aware nodes learn PvD-specific information from the networks they are attached to and/or other sources. PvDs are used to enable separation and configuration consistency in the presence of multiple concurrent connections.</t> </abstract> </front> <seriesInfo name="RFC" value="7556"/> <seriesInfo name="DOI" value="10.17487/RFC7556"/> </reference> <reference anchor="RFC6265"> <front> <title>HTTP State Management Mechanism</title> <author fullname="A. Barth" initials="A." surname="Barth"/> <date month="April" year="2011"/> <abstract> <t>This document defines the HTTP Cookie and Set-Cookie header fields. These header fields can be used by HTTP servers to store state (called cookies) at HTTP user agents, letting the servers maintain a stateful session over the mostly stateless HTTP protocol. Although cookies have many historical infelicities that degrade their security and privacy, the Cookie and Set-Cookie header fields are widely used on the Internet. This document obsoletes RFC 2965. 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