wdiff rfc9442xml2.original.xml rfc9442.xml

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<rfc xmlns:xi="http://www.w3.org/2001/XInclude" ipr="trust200902" docName="draft-ietf-lpwan-schc-over-sigfox-23" category="std"> number="9442" submissionType="IETF" category="std" consensus="true" obsoletes="" updates="" xml:lang="en" symRefs="true" sortRefs="true" tocInclude="true" version="3">

  <!-- xml2rfc v2v3 conversion 3.16.0 -->
  <front>
    <title abbrev="SCHC over Sigfox LPWAN">
     SCHC
     Static Context Header Compression (SCHC) over Sigfox LPWAN Low-Power Wide Area Network (LPWAN)
    </title>
    <seriesInfo name="RFC" value="9442"/>
    <author fullname="Juan Carlos Zuniga" Zúñiga" initials="JC." surname="Zuniga"> surname="Zúñiga">
      <address>
        <postal>
          <street></street>
          <street/>
          <city>Montreal</city>
          <code> QC</code>
          <region>QC</region>
          <country>Canada</country>
        </postal>
        <email>j.c.zuniga@ieee.org</email>
      </address>
    </author>
    <author initials="C." surname="Gomez" fullname="Carles Gomez">
      <organization>Universitat Politecnica Politècnica de Catalunya</organization>
      <address>
        <postal>
          <street>C/Esteve Terradas, 7</street> <street>08860 Castelldefels</street>
          <city>Castelldefels</city>
          <code>08860</code>
          <country>Spain</country>
        </postal>
        <email>carles.gomez@upc.edu</email>
      </address>
    </author>
    <author initials="S." surname="Aguilar" fullname="Sergio Aguilar">
      <organization>Universitat Politecnica Politècnica de Catalunya</organization>
      <address>
        <postal>
          <street>C/Esteve Terradas, 7</street> <street>08860 Castelldefels</street>
          <city>Castelldefels</city>
          <code>08860</code>
          <country>Spain</country>
        </postal>
        <email>sergio.aguilar.romero@upc.edu</email>
      </address>
    </author>
    <author initials="L." surname="Toutain" fullname="Laurent Toutain">
      <organization>IMT-Atlantique</organization>
      <address>
        <postal>
          <street>2 rue de la Chataigneraie</street> <street>CS 17607</street>
          <city>35576 Cesson-Sevigne
          <extaddr>CS 17607</extaddr>
          <city>Cesson-Sevigne Cedex</city>
          <code>35576</code>
          <country>France</country>
        </postal>
        <email>Laurent.Toutain@imt-atlantique.fr</email>
      </address>
    </author>
    <author initials="S." surname="Cespedes" surname="Céspedes" fullname="Sandra Cespedes"> Céspedes">
      <organization>Concordia University</organization>
      <address>
        <postal>
          <street>1455 De Maisonneuve Blvd. W.</street>
            <city>Montreal QC, H3G 1M8</city>
          <city>Montreal</city>
          <region>QC</region>
          <code>H3G 1M8</code>
          <country>Canada</country>
        </postal>
        <email>sandra.cespedes@concordia.ca</email>
      </address>
    </author>
    <author initials="D." surname="Wistuba" fullname="Diego Wistuba">
      <organization>NIC Labs, Universidad de Chile</organization>
      <address>
        <postal>
          <street>Av. Almte. Blanco Encalada 1975</street> <street>Santiago</street>
          <city>Santiago</city>
          <country>Chile</country>
        </postal>
        <email>wistuba@niclabs.cl</email>
        <email>research@witu.cl</email>
      </address>
    </author>
    <author fullname="Julien Boite" initials="J." surname="Boite">
      <organization>
        Unabiz (Sigfox)
      </organization>
      <organization>Unabiz (Sigfox)</organization>
      <address>
        <postal>
          <street></street>
          <street/>
          <city>Labege</city>
          <country>France</country>
        </postal>
        <email>julien.boite@unabiz.com</email>
        <email>juboite@free.fr</email>
        <uri>https://www.sigfox.com/</uri>
      </address>
    </author>
    <date year="2023" month="February" day="3"/>

    <workgroup>lpwan Working Group</workgroup> month="July"/>
    <area>int</area>
    <workgroup>lpwan</workgroup>
    <keyword>IoT</keyword>
    <keyword>Sigfox</keyword>
    <keyword>SCHC</keyword>
    <keyword>LPWAN</keyword>
    <keyword>fragmentation</keyword>
    <keyword>Reliable Delivery</keyword>
    <keyword>Link Layer Protocols</keyword>
    <keyword>Cross-Layer Protocols</keyword>
    <keyword>Adaptation Layer</keyword>
    <abstract>

<!--<t>The Generic Framework for Static Context Header Compression and Fragmentation (SCHC) specification describes two mechanisms: i) an application header -->
<!--compression scheme, and ii) a frame fragmentation and loss recovery functionality. SCHC offers a great level of flexibility that can be tailored for different -->
<!--Low Power Wide Area Network (LPWAN) technologies.</t>-->
        <t>The Static Context Header Compression (SCHC) and fragmentation (SCHC) specification (RFC8724) (RFC 8724) describes a generic framework for application header compression and fragmentation modes designed for Low Power Low-Power Wide Area Network (LPWAN) technologies.
        The present
        This document defines a profile of SCHC over Sigfox LPWAN, LPWAN and provides optimal parameter values and modes of operation.
<!--            This set of parameters are also known as a "SCHC over Sigfox profile. -->
      </t>

<!--
<t>when processing the header fields. SCHC compression is based on a common static context stored in a LPWAN device and in the network. Static context means
that the stored information does not change during the packet transmission. The context describes the field values and keeps information that will not be
transmitted through the constrained network.</t>

<t>SCHC must be used for LPWAN networks because it avoids complex resynchronization mechanisms, which are incompatible
with LPWAN characteristics. And also because in most cases, IPv6/UDP headers are reduced
to a small identifier called RuleID. Eventhough sometimes, a SCHC compressed packet will not fit in one L2 PDU, and the SCHC fragmentation protocol
will be used. The SCHC fragmentation and reassembly mechanism is used in two situations: for SCHC-compressed packets that still exceed the L2 PDU size;
and for the case where the SCHC compression cannot be performed.</t>

<t>This document describes the SCHC compression/decompression framework and applies it
to IPv6/UDP headers. This document also specifies a fragmentation and reassembly mechanism that is used to support the IPv6 MTU requirement over LPWAN technologies.
Fragmentation is mandatory for IPv6 datagrams that, after SCHC compression or when it has not been possible to apply such compression, still exceed the L2 maximum
payload size. Similar solutions for other protocols such as CoAP will be described in separate documents.</t>
-->
    </abstract>
  </front>
  <middle>
    <section anchor="Introduction" title="Introduction"> numbered="true" toc="default">
      <name>Introduction</name>
      <t>The Generic Framework for Static Context Header Compression (SCHC) and Fragmentation (SCHC) specification <xref target="RFC8724"/> target="RFC8724" format="default"/> can be used in conjunction with any of the four LPWAN technologies
described in <xref target="RFC8376"/>. target="RFC8376" format="default"/>. These LPWANs have similar characteristics characteristics, such as star-oriented
topologies, network architecture, connected devices with built-in applications, etc.
</t>
      <t>SCHC offers a considerable degree of flexibility to accommodate all these LPWAN technologies. Even though there are a great number of similarities between
them, some differences exist with respect to the transmission characteristics, payload sizes, etc. Hence, there are optimal parameters and modes of operation
that can be used when SCHC is used in conjunction with a specific LPWAN technology.
</t>
      <t>
    Sigfox is an LPWAN technology that offers energy-efficient connectivity for devices at a very low cost.
    Complete Sigfox complete documentation can be found in <xref target="sigfox-docs"/>. target="sigfox-docs" format="default"/>.
    Sigfox aims to provide a very wide area network composed of Base Stations that receive short uplink Uplink messages (up to 12 bytes in size) sent by devices over the long-range Sigfox radio protocol, as described in <xref target="RFC8376"/>. target="RFC8376" format="default"/>.
    Base Stations then forward messages to the Sigfox Cloud infrastructure for further processing (e.g., to offer geolocation services) and final delivery to the customer.
        Base Stations also relay downlink Downlink messages (with a fixed 8 bytes 8-byte size) sent by the Sigfox Cloud to the devices, downlink  i.e., Downlink messages are being generated when devices explicitly request for it these messages with a flag in an uplink Uplink message.
    With SCHC functionalities, the Sigfox network offers more reliable communications (including recovery of lost messages) and is able to convey extended-size payloads (allowing for fragmentation/reassembly of
messages) <xref target="sigfox-spec"/>. target="sigfox-spec" format="default"/>.
</t>
      <t>This document describes the parameters, settings, and modes of operation to be used when SCHC is implemented over a Sigfox LPWAN. The set of parameters forms a "SCHC over Sigfox profile". Profile".
    The SCHC over Sigfox Profile is applicable to the Sigfox Radio specification versions up to v1.6/March
2022 <xref target="sigfox-spec"/> target="sigfox-spec" format="default"/>  (support for future versions would have to be assessed).

</t>
    </section>
    <section anchor="terminology" title="Terminology">
<t>The numbered="true" toc="default">
      <name>Terminology</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 in
   BCP 14 BCP&nbsp;14 <xref target="RFC2119"/> <xref target="RFC8174"/>
    when, and only when, they appear in all capitals, as shown here.</t> here.
        </t>
      <t>It is assumed that the reader is familiar with the terms and mechanisms defined in <xref target="RFC8376"/> target="RFC8376" format="default"/> and
in <xref target="RFC8724"/>. target="RFC8724" format="default"/>. Also, it is assumed that the reader is familiar with Sigfox terminology <xref target="sigfox-spec"/>. target="sigfox-spec" format="default"/>.
</t>
    </section>
    <section anchor="schc-over-sigfox" title="SCHC numbered="true" toc="default">
      <name>SCHC over Sigfox"> Sigfox</name>
      <t>The Generic SCHC Framework described in <xref target="RFC8724"/> target="RFC8724" format="default"/> takes advantage of previous knowledge of traffic flows existing in LPWAN applications to avoid context synchronization.</t>
      <t>Contexts need to be stored and pre-configured on both ends.
    This can be done either by using a provisioning protocol, by out-of-band means, or by
    pre-provisioning them (e.g., at manufacturing time).
    For example, the context exchange can be done by using NETCONF<xref target="RFC6241"/> the Network Configuration Protocol (NETCONF) <xref target="RFC6241" format="default"/> with SSH, RESTCONF<xref target="RFC8040"/> Secure Shell (SSH), RESTCONF <xref target="RFC8040" format="default"/> with HTTPs, secure HTTP methods, and CORECONF<xref target="I-D.ietf-core-comi"/> CoAP Management Interface (CORECONF) <xref target="I-D.ietf-core-comi" format="default"/> with CoAP<xref target="RFC7252"/> the Constrained Application Protocol (CoAP) <xref target="RFC7252" format="default"/> as provisioning protocols. The contexts can be encoded in XML under NETCONF, in JSON<xref target="RFC8259"/> JSON <xref target="RFC8259" format="default"/> under RESTCONF RESTCONF, and in CBOR<xref target="RFC8949"/> Concise Binary Object Representation (CBOR) <xref target="RFC8949" format="default"/> under CORECONF.
    The way contexts are configured and stored on both ends is out of the scope of this document.</t>
      <section anchor="network-arch" title="Network Architecture"> numbered="true" toc="default">
        <name>Network Architecture</name>

        <t><xref target="Fig-archi"/> target="Fig-archi" format="default"/> represents the architecture for Compression/Decompression (C/D) and Fragmentation/Reassembly (F/R) based
on the terminology defined in <xref target="RFC8376"/>, target="RFC8376" format="default"/>, where the Radio Gateway (RGW) is a Sigfox Base Station and the Network Gateway (NGW) is the
Sigfox cloud-based Network. </t>
        <figure title="Network Architecture" anchor="Fig-archi"><artwork><![CDATA[ anchor="Fig-archi">
          <name>Network Architecture</name>
          <artwork name="" type="" align="center" alt=""><![CDATA[
  Sigfox Device                                           Application
+----------------+                                     +--------------+
| APP1 APP2 APP3 |                                     |APP1 APP2 APP3|
+----------------+                                     +--------------+
|   UDP  |       |                                     |     |  UDP   |
|  IPv6  |       |                                     |     | IPv6   |
+--------+       |                                     |     +--------+
| SCHC C/D & F/R |                                     |              |
|                |                                     |              |
+-------+--------+                                     +--------+-----+
        $                                                       .
        $   +---------+     +--------------+     +---------+    .
        $   |         |     |   Network    |     | Network |    .
        +~~ |Sigfox BS|     |   Gateway    |     |  SCHC   |    .
            |  (RGW)  | === |    (NGW)     | ... |C/D & F/R|.....
            |         |     | Sigfox Cloud |     |         |   IP-based
            +---------+     +--------------+     +---------+   Network
------- Uplink message ------>
                                       <------- Downlink message ------
Legend:
$, ~ : Radio link
= : Internal Sigfox Network
. : External IP-based Network

]]></artwork></figure>
]]></artwork>
        </figure>
        <t>In the case of the global Sigfox Network, network, RGWs (or Base Stations) are distributed over multiple countries wherever the Sigfox LPWAN service is provided.
The NGW (or cloud-based Sigfox Core Network) is a single entity that connects to all RGWs (Sigfox Base Stations) in the world, providing hence providing a global single star network Network topology.</t>
        <t>The Sigfox Device sends application packets that are compressed and/or fragmented by a SCHC C/D + F/R to reduce headers header size and/or fragment the packet.
The resulting SCHC Message message is sent over a layer two (L2) Sigfox frame to the Sigfox Base Stations, which then forwards forward the SCHC Message message to the Network Gateway (NGW). NGW.
The NGW then delivers the SCHC Message message and associated gathered metadata to the Network SCHC C/D + F/R.</t>
        <t>The Sigfox cloud-based Network (NGW) communicates with the Network SCHC C/D + F/R for compression/decompression and/or for fragmentation/reassembly. The Network SCHC C/D + F/R shares the same set of rules Rules
as the Device device SCHC C/D + F/R. The Network SCHC C/D + F/R can be collocated with the NGW or it could be located in a different place, as long as a tunnel or secured communication is established between
the NGW and the SCHC C/D + F/R functions. After decompression and/or reassembly, the packet can be forwarded over the Internet to one (or several) LPWAN Application Server(s) (App).</t> (App(s)).</t>
        <t>The SCHC C/D + F/R processes are bidirectional, so the same principles are applicable on both Uplink (UL) and Downlink (DL).</t>
      </section>
      <section anchor="uplink" title="Uplink"> numbered="true" toc="default">
        <name>Uplink</name>
        <t>Uplink Sigfox transmissions occur in repetitions over different times and frequencies.
Besides time and frequency diversities, the Sigfox network also provides spatial diversity, as potentially an Uplink message will be received by several base stations. Base Stations. The uplink Uplink message application payload size can be up to 12 bytes.</t>
        <t>Since all messages are self-contained and base stations Base Stations forward all these messages back to the same Sigfox Network, network, multiple input copies can be
combined at the NGW NGW, providing for extra reliability based on the triple diversity (i.e., time, space space, and frequency).
</t>
        <t>
A detailed description of the Sigfox Radio Protocol radio protocol can be found in <xref target="sigfox-spec"/>. target="sigfox-spec" format="default"/>.
</t>
        <t>Messages sent from the Device device to the Network are delivered by the Sigfox network (NGW) cloud-based Network to the Network SCHC C/D + F/R through a  callback/API with the following information:</t>

<t><list style="symbols">
<t>Device ID</t>
<t>Message
        <ul spacing="normal">
          <li>Device ID</li>
          <li>Message Sequence Number</t>
<t>Message Payload</t>
<t>Message Timestamp</t>
<t>Device Number</li>
          <li>Message Payload</li>
          <li>Message Timestamp</li>
          <li>Device Geolocation (optional)</t>
<t>Received (optional)</li>
          <li>Received Signal Strength Indicator (RSSI) (optional)</t>
<t>Device (optional)</li>
          <li>Device Temperature (optional)</t>
<t>Device (optional)</li>
          <li>Device Battery Voltage (optional)</t>
</list></t> (optional)</li>
         </ul>
        <t>The Device ID is a globally unique identifier assigned to the Device, device, which is included in the Sigfox header of every message. The Message Sequence Number is a monotonically
increasing number identifying the specific transmission of this Uplink message, and it is also part of the Sigfox header. The Message Payload corresponds to the payload that the
Device
device has sent in the Uplink transmission.
	Battery Voltage, temperature Device Temperature, and RSSI values are sent in the confirmation control message, which is mandatorially mandatorily sent by the device after the successful reception of a downlink Downlink message (see <xref target="sigfox-callbacks"/> target="sigfox-callbacks" format="default"/>, Section 5.2).</t>
        <t>The Message Timestamp, Device Geolocation, RSSI, Device Temperature Temperature, and Device Battery Voltage are metadata parameters provided by the Network.</t>
        <t>A detailed description of the Sigfox callbacks/APIs can be found in <xref target="sigfox-callbacks"/>.</t> target="sigfox-callbacks" format="default"/>.</t>
        <t>Only messages that have passed the L2 Cyclic Redundancy Check (CRC) at network Network reception are delivered by the Sigfox Network network to the Network SCHC C/D + F/R.</t>
        <t>The L2 Word Size size used by Sigfox is 1 byte (8 bits). </t>
        <t><xref target="SCHC-Message"/> target="SCHC-Message" format="default"/> shows a SCHC Message message sent over Sigfox, where the SCHC Message message could be a full SCHC Packet (e.g., compressed)
or a SCHC Fragment (e.g., a piece of a bigger SCHC Packet).</t>
        <figure title="SCHC anchor="SCHC-Message">
          <name>SCHC Message in Sigfox" anchor="SCHC-Message"><artwork><![CDATA[ Sigfox</name>
          <artwork name="" type="" align="center" alt=""><![CDATA[
| Sigfox Header | Sigfox payload Payload  |
+---------------+---------------- +
                |   SCHC message Message  |

]]></artwork></figure>
]]></artwork>
        </figure>
      </section>
      <section anchor="downlink" title="Downlink"> numbered="true" toc="default">
        <name>Downlink</name>
        <t>
   Downlink transmissions are Device-driven device-driven and can only take place
   following an Uplink communication that so indicates. indicates Downlink communication can be performed. Hence, a Sigfox Device explicitly indicates its intention to receive a Downlink message (with a size of 8 bytes)
using a Downlink request flag when sending the preceding Uplink message to the network. Network. The Downlink request flag is part of the Sigfox protocol headers. After completing the Uplink transmission, the Device device opens a fixed window for Downlink reception.
The delay and duration of the reception opportunity window have fixed values. If there is a Downlink message to be sent for this given Device device (e.g., either
a response to the Uplink message or queued information waiting to be transmitted), the network Network transmits this message to the Device device during the reception window. If no message is received by the Device device after
the reception opportunity window has elapsed, the Device device closes the reception window opportunity and gets back to the normal mode (e.g., continue Uplink transmissions, sleep, stand-by, etc.) standby, etc.).
</t>
        <t>When a Downlink message is sent to a Device, device, a reception acknowledgement is generated by the Device and device, sent back to the Network through the Sigfox radio protocol protocol, and reported in the Sigfox Network network backend.</t>
        <t>
A detailed description of the Sigfox Radio Protocol radio protocol can be found in <xref target="sigfox-spec"/> target="sigfox-spec" format="default"/>, and a detailed description of the Sigfox callbacks/APIs can be found in <xref target="sigfox-callbacks"/>. target="sigfox-callbacks" format="default"/>. A Downlink request flag can be included in the information exchange between the Sigfox Network network and Network SCHC.
</t>
        <section anchor="dl_ack" title="SCHC numbered="true" toc="default">
          <name>SCHC ACK on Downlink"> Downlink</name>
          <t>
As explained previously, Downlink transmissions are Device-driven driven by devices and can only take place following a specific Uplink transmission that indicates and allows a following Downlink opportunity.
For this reason, when SCHC bidirectional services are used (e.g., Ack-on-Error ACK-on-Error fragmentation mode) mode), the SCHC protocol implementation needs to consider the times when a Downlink message
(e.g., SCHC ACK) Acknowledgement (ACK)) can be sent and/or received.
</t>
          <t>
For the Uplink ACK-on-Error fragmentation mode, a Downlink opportunity MUST <bcp14>MUST</bcp14> be indicated by the last fragment of every window, which is signalled by a specific value of the Fragment Compressed Number (FCN) value, i.e., FCN = All-0, All-0 or FCN = All-1. The FCN is the tile index in a specific window. The combination of the FCN and the window number uniquely identifies a SCHC Fragment Fragment, as explained in <xref target="RFC8724"/>. target="RFC8724" format="default"/>.
    The Device device sends the fragments in sequence and, after
transmitting the FCN = All-0 or FCN = All-1, it opens up a reception opportunity. The Network SCHC can then decide to respond at that opportunity (or wait for a further one) with a SCHC ACK ACK, indicating that there are missing fragments from the current or previous windows. If there is no SCHC ACK to be sent, or if the network Network decides to wait for a further Downlink transmission opportunity, then no
Downlink transmission takes place at that opportunity and after a timeout the Uplink transmissions continue. continue after a timeout.
   Intermediate SCHC fragments Fragments with FCN FCNs that are different from All-0 or All-1 MUST NOT <bcp14>MUST NOT</bcp14> use the Downlink request flag to request a SCHC ACK.
</t>
        </section>
      </section>
      <section anchor="schc-rules" title="SCHC Rules"> numbered="true" toc="default">
        <name>SCHC Rules</name>
        <t>
The RuleID MUST <bcp14>MUST</bcp14> be included in the SCHC header. The total number of rules Rules to be used affects directly affects the RuleID field size, and therefore
the total size of the fragmentation header. For this reason, it is RECOMMENDED <bcp14>RECOMMENDED</bcp14> to keep the number of rules Rules that are defined for a specific device to the minimum possible.
    Large RuleID sizes (and thus larger fragmentation header) is headers) are acceptable for devices without significant energy constraints (e.g., a sensor that is powered by the electricity grid).
</t>
        <t>
RuleIDs can be used to differentiate data traffic classes (e.g.,  QoS, control vs. data, etc.), etc.) and data sessions.
They can also be used to interleave simultaneous fragmentation sessions between a Device device and the Network.
</t>
      </section>
      <section anchor="Frag" title="Fragmentation"> numbered="true" toc="default">
        <name>Fragmentation</name>
        <t>
The SCHC specification <xref target="RFC8724"/> target="RFC8724" format="default"/> defines a generic fragmentation functionality that
allows sending data packets or files larger than the maximum size of a Sigfox payload. The functionality also defines a mechanism to send reliably send multiple messages, messages by allowing to resend selectively resend any lost fragments. </t> fragments.</t>
        <t>
The SCHC fragmentation supports several modes of operation. These modes have different advantages and disadvantages disadvantages, depending
on the specifics of the underlying LPWAN technology and application Use Case. use case. This section describes how the SCHC fragmentation functionality
should optimally be implemented when used over a Sigfox LPWAN for the most typical Use Case use case applications.</t>
        <t>As described in section 8.2.3 of <xref target="RFC8724"/>, target="RFC8724" format="default" sectionFormat="of" section="8.2.3"/>, the integrity of the fragmentation-reassembly process of a SCHC Packet MUST <bcp14>MUST</bcp14> be
checked at the receiver end. Since only Uplink/Downlink messages/fragments that have passed the Sigfox CRC-check are delivered to the Network/Sigfox Device SCHC C/D + F/R,
integrity can be guaranteed when no consecutive messages are missing from the sequence and all FCN bitmaps are complete.  With this functionality
in mind, and in order to save protocol and processing overhead, the use of a Reassembly Check Sequence (RCS) (RCS), as described in
<xref target="all-1-behaviour"/> MUST target="all-1-behaviour" format="default"/>, <bcp14>MUST</bcp14> be used.

</t>

<!--<t>The L2 Word Size used by Sigfox is 1 byte (8 bits). </t>-->

<!--
<section anchor="schc-compound-ack" title="SCHC Compound ACK">

<t>
The present SCHC over Sigfox specification extends SCHC ACK format defined in <xref target="RFC8724"/> with the SCHC Compound ACK concept.</t>
<t>
The SCHC Compound ACK is a SCHC ACK message that can contain several bitmaps, each bitmap being identified by its
corresponding window number.
The SCHC Compound ACK concept is meant to reduce the number of Downlink transmissions (i.e., SCHC ACKs) by including bitmaps of several
windows in a single SCHC message (i.e., the SCHC Compound ACK), and hence making an efficient use of Downlink channel transmissions.
</t>
<t>When the ACK-on-Error mode is used for Uplink fragmentation, SCHC Compound ACKs MUST be used in the Downlink responses.</t>
<t>The SCHC Compound ACK:</t>
<t><list style="symbols">
<t>provides feedback only for windows with fragment losses,</t>
<t>has a variable size that depends on the number of windows with fragment losses being reported in the single Compound SCHC ACK,</t>
<t>includes the window number (i.e., W) for each bitmap,</t>
<t>has a format coincident with that of a SCHC ACK (RFC 8724) when only one window with losses is reported,</t>
<t>might not cover all windows with fragment losses of a SCHC Packet,</t>
<t>is distinguishable from the SCHC Receiver-Abort.</t>
</list></t>
<t>
The SCHC Compound ACK groups the window number (W) with its corresponding bitmap.
The included window numbers and corresponding bitmap MUST be ordered from the lowest-numbered to the highest-numbered window.
 </t>
</section>
-->
<section anchor="uplink-fragmentation" title="Uplink Fragmentation"> numbered="true" toc="default">
          <name>Uplink Fragmentation</name>
          <t>Sigfox Uplink transmissions are completely asynchronous and take place in any random frequency of the allowed Uplink bandwidth allocation.
In addition, devices may go to deep sleep mode, mode and then wake up and transmit whenever there is a need to send information to the network, Network, as there is no need to perform any network Network attachment, synchronization, or other procedure procedures before transmitting a data packet.
<!--Data packets are self-contained (aka “message in a bottle”) with all the required information for the network to process them accordingly.-->
<!--Hence, there is no need to perform any network attachment, synchronization, or other procedure before transmitting a data packet.-->
	  </t>
          <t>Since Uplink transmissions are asynchronous, a SCHC fragment Fragment can be transmitted at any given time by the Device. device. Sigfox Uplink messages
are fixed in size, and as described in <xref target="RFC8376"/> target="RFC8376" format="default"/>, they can carry a payload of 0-12 bytes payload. (0-96 bits). Hence, a single SCHC Tile size size, per fragmentation
mode
mode, can be defined so that every Sigfox message always carries one SCHC Tile.</t>
          <t>When the ACK-on-Error mode is used for Uplink fragmentation, the SCHC Compound ACK defined in <xref target="I-D.ietf-lpwan-schc-compound-ack"/>) MUST target="RFC9441" format="default"/> <bcp14>MUST</bcp14> be used in the Downlink responses.</t>
          <section anchor="schc_sender_abort" title="SCHC Sender-Abort"> numbered="true" toc="default">
            <name>SCHC Sender-Abort</name>
            <t>As defined in <xref target="RFC8724"/>, target="RFC8724" format="default"/>, a SCHC Sender-Abort can be triggered when the number of SCHC ACK REQ attempts is greater than or equal to MAX_ACK_REQUESTS.
In the case of SCHC over Sigfox, a SCHC Sender-Abort MUST <bcp14>MUST</bcp14> be sent if the number of repeated All-1s sent in sequence, without a Compound ACK reception inbetween, is greater than or equal to MAX_ACK_REQUESTS.
<!--    be sent if the number of repeated All-1s (i.e., with the same bitmap) sent in sequence between, is greater than or equal to MAX_ACK_REQUESTS. -->
</t>
<!--<t>The Attempts counter MUST be reset when a SCHC ACK is successfully received.</t>-->
</section>
          <section anchor="schc_receiver_abort" title="SCHC Receiver-Abort"> numbered="true" toc="default">
            <name>SCHC Receiver-Abort</name>
            <t>As defined in <xref target="RFC8724"/>, target="RFC8724" format="default"/>, a SCHC Receiver-Abort is triggered when the receiver has no RuleID and DTag pairs available for a new session.
In the case of this profile profile, a SCHC Receiver-Abort MUST <bcp14>MUST</bcp14> be sent if, for a single device, all the RuleIDs are being processed by the receiver (i.e., have an active session)
at a certain time and a new one is requested, requested or if the RuleID of the fragment is not valid.</t>
            <t>A SCHC Receiver-Abort MUST <bcp14>MUST</bcp14> be triggered when the Inactivity Timer expires. </t>
            <t>MAX_ACK_REQUESTS can be increased when facing high error rates. </t>

<!--<t>A SCHC-Receiver Abort can be triggered when the number of ACK attempts is not strictly less than MAX_ACK_REQUESTS. In the case of SCHC/Sigfox, -->
<!--a SCHC-Receiver Abort MUST be sent if the number of repeated SCHC ACKs sent in a row (i.e., synchronized with the ACK REQ case, and with identical bitmaps) -->
<!--is greater than or equal to MAX_ACK_REQUESTS.</t>-->
<t>Although a SCHC Receiver-Abort can be triggered at any point in time, a SCHC Receiver-Abort Downlink message MUST <bcp14>MUST</bcp14> only be sent when there is a Downlink transmission opportunity.</t>
          </section>
          <section anchor="single-byte-schc-header" title="Single-byte numbered="true" toc="default">
            <name>Single-Byte SCHC Header for Uplink Fragmentation"> Fragmentation</name>
            <section anchor="no-ack-mode" title="Uplink numbered="true" toc="default">
              <name>Uplink No-ACK Mode: Single-byte Single-Byte SCHC Header"> Header</name>
              <t>Single-byte SCHC Header No-ACK mode MUST <bcp14>MUST</bcp14> be used for transmitting short, non-critical packets that require fragmentation and do not require full reliability.
This mode can be used by Uplink-only devices that do not support Downlink communications, communications or by bidirectional devices when they send non-critical
data.
Note that sending non-critical data by using a reliable fragmentation mode (which is only possible for bidirectional devices) may incur unnecessary overhead. </t>
              <t>Since there are no multiple windows in the No-ACK mode, the W bit is not present.
    However, it MUST <bcp14>MUST</bcp14> use the FCN field to indicate the
size of the data packet. In this sense, the data packet would need to be split into X fragments and, similarly to the other fragmentation modes,
the first transmitted fragment would need to be marked with FCN = X-1. Consecutive fragments MUST <bcp14>MUST</bcp14> be marked with decreasing FCN values, having the
last fragment marked with FCN = (All-1). Hence, even though the No-ACK mode does not allow recovering missing fragments, it allows indicating implicitly indicating
the size of the expected packet to the Network and hence detect at the receiver side detects whether all fragments have been received or not. not at the receiver side.
In case the FCN field is not used to indicate the size of the data packet, the Network can detect whether all fragments have been received or not by using the integrity check.
	      </t>
              <t>When using the Single-byte SCHC Header for Uplink Fragmentation, fragmentation, the
     Fragmentation Header MUST
	      fragmentation header <bcp14>MUST</bcp14> be of 8 bit size, bits in size and the Fragment header is composed as follows:</t>

<t><list style="symbols">

<t>RuleID
              <ul spacing="normal">
                <li>RuleID size: 3 bits</t>

<t>DTag bits</li>
                <li>DTag size (T): 0 bit</t>

<t>Fragment bits</li>
                <li>Fragment Compressed Number (FCN) size (N): 5 bits</t>

</list></t> bits</li>
              </ul>
              <t>Other F/R parameters MUST <bcp14>MUST</bcp14> be configured as follows:</t>
 <t><list style="symbols">

<t>As
              <ul spacing="normal">
                <li>As per <xref target="RFC8724"/>, target="RFC8724" format="default"/>, in the No-ACK mode mode, the W (window) field is not present. </t>

<t>Regular </li>
                <li>Regular tile size: 11 bytes</t>

<t>All-1 bytes</li>
                <li>All-1 tile size: 0 to 10 bytes</t>

<t>Inactivity bytes</li>
                <li>Inactivity Timer: Application-dependent. The default value is 12 hours.</t>

<t>RCS hours.</li>
                <li>RCS size: 5 bits </t>

</list></t> </li>
              </ul>
              <t>The maximum SCHC Packet size is 340 bytes.</t>
              <t><xref target="UL-NoACK-single-byte"/> target="UL-NoACK-single-byte" format="default"/> presents SCHC Fragment format examples examples, and <xref target="no-ack-examples"/> target="no-ack-examples" format="default"/> provides fragmentation examples, using Single-byte SCHC Header No-ACK mode.</t>
            </section>
            <section anchor="ack-on-error-mode-1" title="Uplink numbered="true" toc="default">
              <name>Uplink ACK-on-Error Mode: Single-byte Single-Byte SCHC Header"> Header</name>
              <t>ACK-on-Error with a single-byte header MUST <bcp14>MUST</bcp14> be used for short short- to medium size medium-sized packets that need to be sent
   reliably. ACK-on-Error is optimal for reliable SCHC Packet transmission over Sigfox transmissions, since it leads to a reduced number of ACKs
   in the lower capacity lower-capacity Downlink channel. Also, Downlink messages can be sent asynchronously and opportunistically.
    In contrast, ACK-Always would not minimize the number of ACKs, and No-ACK would not allow reliable transmission.
</t>
              <t>Allowing transmission of packets/files up to 300 bytes long, the SCHC Uplink Fragmentation Header fragmentation header size is 8 bits in size and is composed as follows:
</t>

<!--
<t><list style="symbols">
<t>Single-byte SCHC Uplink header</t>
</list></t>
-->

<t><list style="symbols">

<t>RuleID
<ul spacing="normal">
                <li>RuleID size: 3 bits</t>

<t>DTag bits</li>
                <li>DTag size (T): 0 bit</t>

<t>Window bits</li>
                <li>Window index (W) size (M): 2 bits </t>

<t>Fragment </li>
                <li>Fragment Compressed Number (FCN) size (N): 3 bits</t>
</list></t> bits</li>
              </ul>
              <t>Other F/R parameters MUST <bcp14>MUST</bcp14> be configured as follows:</t>
 <t><list style="symbols">
<t>MAX_ACK_REQUESTS: 5</t>

<t>WINDOW_SIZE:
              <ul spacing="normal">
                <li>MAX_ACK_REQUESTS: 5</li>
                <li>WINDOW_SIZE: 7 (i.e., the maximum FCN value is 0b110)</t>

<t>Regular 0b110)</li>
                <li>Regular tile size: 11 bytes</t>

<t>All-1 bytes</li>
                <li>All-1 tile size: 0 to 10 bytes</t>

<t>Retransmission bytes</li>
                <li>Retransmission Timer: Application-dependent. The default value is 12 hours.</t>

<t>Inactivity hours.</li>
                <li>Inactivity Timer: Application-dependent. The default value is 12 hours.</t>

<t>RCS hours.</li>
                <li>RCS size: 3 bits</t>

</list></t> bits</li>
              </ul>
              <t><xref target="UL-ACKoE-single-byte"/> target="UL-ACKoE-single-byte" format="default"/> presents SCHC Fragment format examples examples, and <xref target="ack-on-error-examples-1B-header"/> target="ack-on-error-examples-1B-header" format="default"/> provides fragmentation examples, using ACK-on-Error with a single-byte header.</t>
            </section>
          </section>
          <section anchor="two-byte-schc-header" title="Two-byte numbered="true" toc="default">
            <name>Two-Byte SCHC Header for Uplink Fragmentation"> Fragmentation</name>
            <t>ACK-on-Error with a two-byte header MUST <bcp14>MUST</bcp14> be used for medium-large size medium- to large-sized packets that need to be sent
   reliably.  ACK-on-Error is optimal for reliable SCHC Packet transmission over Sigfox, since it
   leads to a reduced number of ACKs in the lower capacity lower-capacity Downlink
   channel. Also, Downlink messages can be sent asynchronously and
   opportunistically. In contrast, ACK-Always would not minimize the number of ACKs, and No-ACK would not allow reliable transmission.
</t>
            <section anchor="ack-on-error-mode-2" title="Uplink numbered="true" toc="default">
              <name>Uplink ACK-on-Error Mode: Two-byte Two-Byte SCHC Header Option 1"> 1</name>
              <t>In order to allow transmission of medium-large medium to large packets/files up to 480 bytes long, the SCHC Uplink Fragmentation Header fragmentation header size is 16 bits in size and is composed as follows:</t>

<t><list style="symbols">

<t>RuleID size is:
              <ul spacing="normal">
                <li>RuleID size: 6 bits</t>

<t>DTag bits</li>
                <li>DTag size (T) is: (T): 0 bit</t>

<t>Window bits</li>
                <li>Window index (W) size (M): 2 bits </t>

<t>Fragment </li>
                <li>Fragment Compressed Number (FCN) size (N): 4 bits.</t>

<t>RCS bits</li>
                <li>RCS size: 4 bits</t>
</list></t> bits</li>
              </ul>
              <t>Other F/R parameters MUST <bcp14>MUST</bcp14> be configured as follows:</t>
 <t><list style="symbols">
<t>MAX_ACK_REQUESTS: 5</t>

<t>WINDOW_SIZE:
              <ul spacing="normal">
                <li>MAX_ACK_REQUESTS: 5</li>
                <li>WINDOW_SIZE: 12 (with a maximum value of FCN=0b1011)</t>

<t>Regular FCN=0b1011)</li>
                <li>Regular tile size: 10 bytes</t>

<t>All-1 bytes</li>
                <li>All-1 tile size: 1 to 10 bytes</t>

<t>Retransmission bytes</li>
                <li>Retransmission Timer: Application-dependent. The default value is 12 hours.</t>

<t>Inactivity hours.</li>
                <li>Inactivity Timer: Application-dependent. The default value is 12 hours.</t>

</list></t> hours.</li>
              </ul>
              <t>Note that WINDOW_SIZE is limited to 12. This because, is because 4 windows (M = 2) with bitmaps of size 12 can be fitted in a
single SCHC Compound ACK.</t>
              <t><xref target="UL-ACKoE-two-byte-opt-1"/> target="UL-ACKoE-two-byte-opt-1" format="default"/> presents SCHC Fragment format examples, using ACK-on-Error with two-byte header Option 1.</t>
            </section>
            <section anchor="ack-on-error-mode-3" title="Uplink numbered="true" toc="default">
              <name>Uplink ACK-on-Error Mode: Two-byte Two-Byte SCHC Header Option 2"> 2</name>
              <t>In order to allow transmission of very large packets/files up to 2400 bytes long, the SCHC Uplink Fragmentation Header fragmentation header size is 16 bits in size and is composed as follows:</t>

<t><list style="symbols">

<t>RuleID size is:
              <ul spacing="normal">
                <li>RuleID size: 8 bits</t>

<t>DTag bits</li>
                <li>DTag size (T) is: (T): 0 bit</t>

<t>Window bits</li>
                <li>Window index (W) size (M): 3 bits </t>

<t>Fragment </li>
                <li>Fragment Compressed Number (FCN) size (N): 5 bits.</t>

<t>RCS bits</li>
                <li>RCS size: 5 bits</t>

</list></t> bits</li>
              </ul>
              <t>Other F/R parameters MUST <bcp14>MUST</bcp14> be configured as follows:</t>
 <t><list style="symbols">
<t>MAX_ACK_REQUESTS: 5</t>

<t>WINDOW_SIZE:
              <ul spacing="normal">
                <li>MAX_ACK_REQUESTS: 5</li>
                <li>WINDOW_SIZE: 31 (with a maximum value of FCN=0b11110)</t>

<t>Regular FCN=0b11110)</li>
                <li>Regular tile size: 10 bytes</t>

<t>All-1 bytes</li>
                <li>All-1 tile size: 0 to 9 bytes</t>

<t>Retransmission bytes</li>
                <li>Retransmission Timer: Application-dependent. The default value is 12 hours.</t>

<t>Inactivity hours.</li>
                <li>Inactivity Timer: Application-dependent. The default value is 12 hours.</t>

</list></t> hours.</li>
              </ul>
              <t><xref target="UL-ACKoE-two-byte"/> target="UL-ACKoE-two-byte" format="default"/> presents SCHC Fragment format examples, using ACK-on-Error with two-byte header Option 1.</t> 2.</t>
            </section>
          </section>
          <section anchor="all-1-behaviour" title="All-1 numbered="true" toc="default">
            <name>All-1 SCHC Fragment and RCS behaviour"> Behavior</name>
            <t>For ACK-on-Error, as defined in <xref target="RFC8724"/>, target="RFC8724" format="default"/>, it is expected that the last SCHC fragment Fragment of the last window will always be delivered
with an All-1 FCN. Since this last window may not be full (i.e., it may be composed of fewer than WINDOW_SIZE fragments), an All-1 fragment
may follow a value of FCN higher than 1 (0b01). In this case, the receiver cannot determine from the FCN values alone
whether there are or are not any missing fragments right before the All-1 fragment.
</t>
            <t>For Rules where the number of fragments in the last window is unknown, an RCS field MUST <bcp14>MUST</bcp14> be used, indicating the number of fragments
in the last window, including the All-1. With this RCS value, the receiver can detect if there are missing fragments before the All-1 and hence
construct the corresponding SCHC ACK Bitmap accordingly, accordingly and send it in response to the All-1.
</t>
          </section>
        </section>
        <section anchor="downlink-fragmentation" title="Downlink Fragmentation"> numbered="true" toc="default">
          <name>Downlink Fragmentation</name>
          <t>In some LPWAN technologies, as part of energy-saving techniques, Downlink transmission is only possible immediately after an Uplink
transmission. This allows the device to go in a very deep sleep mode and preserve battery, battery without the need to listen to any information
from the network. Network. This is the case for Sigfox-enabled devices, which can only listen to Downlink communications after performing an
Uplink transmission and requesting a Downlink.</t>
          <t>When there are fragments to be transmitted in the Downlink, an Uplink message is required to trigger the Downlink communication.
In order to avoid a potentially high delay for fragmented datagram transmission in the Downlink, the fragment receiver MAY <bcp14>MAY</bcp14> perform an
Uplink transmission as soon as possible after reception of a Downlink fragment that is not the last one. Such an Uplink transmission
MAY
<bcp14>MAY</bcp14> be triggered by sending a SCHC message, such as a SCHC ACK. However, other data messages can equally be used to trigger Downlink
communications.
The fragment receiver MUST <bcp14>MUST</bcp14> send an Uplink transmission (e.g., empty message) and request a Downlink every 24 hours when no SCHC session is started. The use or not of Whether this Uplink transmission is used (and the transmission rate, if used) will depend depends on application specific application-specific requirements.
</t>
          <t>Sigfox Downlink messages are fixed in size, and as described in <xref target="RFC8376"/> target="RFC8376" format="default"/> they can carry up to 8 a payload of 0-8 bytes payload. (0-64 bits). Hence, a
single SCHC Tile size per mode can be defined so that every Sigfox message always carries one SCHC Tile.
</t>
          <t>For reliable Downlink fragment transmission, the ACK-Always mode SHOULD <bcp14>SHOULD</bcp14> be used.
Note that ACK-on-Error does not guarantee Uplink feedback (since no SCHC ACK will be sent when no errors occur in a window), and No-ACK would not allow reliable transmission.</t>
          <t>The SCHC Downlink Fragmentation Header fragmentation header size is 8 bits in size and is composed as follows:</t>

<t><list style="symbols">
<t>RuleID
          <ul spacing="normal">
            <li>RuleID size: 3 bits</t>

<t>DTag bits</li>
            <li>DTag size (T): 0 bit</t>

<t>Window bits</li>
            <li>Window index (W) size (M) is: (M): 0 bit </t>

<t>Fragment bits </li>
            <li>Fragment Compressed Number (FCN) size (N): 5 bits</t>
</list></t> bits</li>
          </ul>
          <t>Other F/R parameters MUST <bcp14>MUST</bcp14> be configured as follows:</t>
 <t><list style="symbols">
<t>MAX_ACK_REQUESTS: 5</t>

<t>WINDOW_SIZE:
          <ul spacing="normal">
            <li>MAX_ACK_REQUESTS: 5</li>
            <li>WINDOW_SIZE: 31 (with a maximum value of FCN=0b11110)</t>

<t>Regular FCN=0b11110)</li>
            <li>Regular tile size: 7 bytes</t>

<t>All-1 bytes</li>
            <li>All-1 tile size: 0 to 6 bytes</t>

<t>Retransmission bytes</li>
            <li>Retransmission Timer: Application-dependent. The default value is 12 hours.</t>

<t>Inactivity hours.</li>
            <li>Inactivity Timer: Application-dependent. The default value is 12 hours.</t>

<t>RCS hours.</li>
            <li>RCS size: 5 bits </t>
</list></t>

<!--
<t>Sigfox Downlink frames have a fixed length of 8 bytes, which means that default SCHC algorithm for padding cannot be used.
Therefore, the 3 last bits of the fragmentation header are used to indicate in bytes the size of the padding.
A size of 000 means that the full remaining frame is used to carry payload, a value of 001 indicates that the last byte contains padding, and so on.</t>
--> </li>
          </ul>
</section>
      </section>
      <section anchor="schc-sigfox-message-formats" title="SCHC numbered="true" toc="default">
        <name>SCHC over Sigfox F/R Message Formats"> Formats</name>
        <t>This section depicts the different formats of SCHC Fragment, SCHC ACK (including the SCHC Compound ACK
defined in <xref target="I-D.ietf-lpwan-schc-compound-ack"/>), target="RFC9441" format="default"/>), and SCHC Abort used in SCHC over Sigfox.</t>
        <section anchor="UL-NoACK-single-byte" title="Uplink numbered="true" toc="default">
          <name>Uplink No-ACK Mode: Single-byte Single-Byte SCHC Header"> Header</name>
          <section anchor="no-ack-regular-1byte-schc-fragment" title="Regular numbered="true" toc="default">
            <name>Regular SCHC Fragment"> Fragment</name>
            <t><xref target="no-ack-reg-1byte-frag"/> target="no-ack-reg-1byte-frag" format="default"/> shows an example of a regular Regular SCHC fragment Fragment for all fragments except the last one.
	    As tiles are of 11 bytes, bytes in size, padding MUST NOT <bcp14>MUST NOT</bcp14> be added.
The penultimate tile of a SCHC Packet is of regular size.</t>

<t><figure title="Regular
            <figure anchor="no-ack-reg-1byte-frag">
              <name>Regular SCHC Fragment format Format for all fragments All Fragments except the last one" anchor="no-ack-reg-1byte-frag"><artwork><![CDATA[ Last One</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|- SCHC Fragment Header -|
+------------------------+---------+
|   RuleID   |    FCN    | Payload |
+------------+-----------+---------+
|   3 bits   |  5 bits   | 88 bits |

]]></artwork></figure></t>
]]></artwork>
            </figure>
          </section>
          <section anchor="no-ack-all-1-1byte-schc-fragment" title="All-1 numbered="true" toc="default">
            <name>All-1 SCHC Fragment"> Fragment</name>
            <t><xref target="no-ack-all-1-1byte"/> target="no-ack-all-1-1byte" format="default"/> shows an example of the All-1 message.
The All-1 message MAY <bcp14>MAY</bcp14> contain the last tile of the SCHC Packet.
  Padding MUST NOT <bcp14>MUST NOT</bcp14> be
  added, as the resulting size is L2-word-multiple.</t> a multiple of an L2 Word.</t>
            <t>
   The All-1 messages Fragment Header includes a 5-bit RCS, and 3 bits are added as padding to complete two 2 bytes.
    The payload size of the All-1 message ranges from 0 to 80 bits.
</t>

<t><figure title="All-1
            <figure anchor="no-ack-all-1-1byte">
              <name>All-1 SCHC Message format Format with last tile" anchor="no-ack-all-1-1byte"><artwork><![CDATA[ the Last Tile</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|--------  SCHC Fragment Header -------|
+--------------------------------------+--------------+
| RuleID | FCN=ALL-1 |  RCS   |  b'000 |   Payload    |
+--------+-----------+--------+--------+--------------+
| 3 bits |  5 bits   | 5 bits | 3 bits | 0 to 80 bits |

]]></artwork></figure></t>
]]></artwork>
            </figure>
            <t>As per <xref target="RFC8724"/> target="RFC8724" format="default"/>, the All-1 must be distinguishable from a SCHC Sender-Abort message (with the same RuleID, RuleID and N values).
The All-1 MAY <bcp14>MAY</bcp14> have the last tile of the SCHC Packet.
The SCHC Sender-Abort message header size is 1 byte, byte with no padding bits.</t>
            <t>For the All-1 message to be distinguishable from the Sender-Abort message, the Sender-Abort message MUST <bcp14>MUST</bcp14> be of 1 byte (only header with no padding).
This way, the minimum size of the All-1 is 2 bytes, and the Sender-Abort message is 1 byte.</t>
          </section>
          <section anchor="no-ack-snd-abort-msg-format" title="SCHC numbered="true" toc="default">
            <name>SCHC Sender-Abort Message format">

<t><figure title="SCHC Format</name>
            <figure anchor="no-ack-snd-abort-msg">
              <name>SCHC Sender-Abort message format" anchor="no-ack-snd-abort-msg"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
     Sender-Abort
|------ Header ------|
+--------------------+
| RuleID | FCN=ALL-1 |
+--------+-----------+
| 3 bits |  5 bits   |

]]></artwork></figure></t>
]]></artwork>
            </figure>
          </section>
        </section>
        <section anchor="UL-ACKoE-single-byte" title="Uplink numbered="true" toc="default">
          <name>Uplink ACK-on-Error Mode: Single-byte Single-Byte SCHC Header"> Header</name>
          <section anchor="regular-1byte-schc-fragment" title="Regular numbered="true" toc="default">
            <name>Regular SCHC Fragment"> Fragment</name>
            <t><xref target="reg-1byte-frag"/> target="reg-1byte-frag" format="default"/> shows an example of a regular Regular SCHC fragment Fragment for all fragments except the last one.
As tiles are of 11 bytes, bytes in size, padding MUST NOT <bcp14>MUST NOT</bcp14> be added.</t>

<t><figure title="Regular
            <figure anchor="reg-1byte-frag">
              <name>Regular SCHC Fragment format Format for all fragments All Fragments except the last one" anchor="reg-1byte-frag"><artwork><![CDATA[ Last One</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|-- SCHC Fragment Header --|
+--------------------------+---------+
| RuleID |   W    |  FCN   | Payload |
+--------+--------+--------+---------+
| 3 bits | 2 bits | 3 bits | 88 bits |

]]></artwork></figure></t>
]]></artwork>
            </figure>
            <t>The SCHC ACK REQ MUST NOT <bcp14>MUST NOT</bcp14> be used, instead the All-1 SCHC Fragment MUST <bcp14>MUST</bcp14> be used to request a SCHC ACK from the receiver (Network SCHC).
As per <xref target="RFC8724"/>, target="RFC8724" format="default"/>, the All-0 message is distinguishable from the SCHC ACK REQ (All-1 message).
The penultimate tile of a SCHC Packet is of regular size.</t>
          </section>
          <section anchor="all-1-1byte-schc-fragment" title="All-1 numbered="true" toc="default">
            <name>All-1 SCHC Fragment"> Fragment</name>
            <t><xref target="all-1-1byte"/> target="all-1-1byte" format="default"/> shows an example of the All-1 message.
The All-1 message MAY <bcp14>MAY</bcp14> contain the last tile of the SCHC Packet.
Padding MUST NOT <bcp14>MUST NOT</bcp14> be added, as the resulting size is L2-word-multiple.</t>

<t><figure title="All-1
            <figure anchor="all-1-1byte">
              <name>All-1 SCHC Message format Format with last tile" anchor="all-1-1byte"><artwork><![CDATA[ the Last Tile</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|-------------  SCHC Fragment Header -----------|
+-----------------------------------------------+--------------+
| RuleID |   W    | FCN=ALL-1 |  RCS   |b'00000 |   Payload    |
+--------+--------+-----------+--------+--------+--------------+
| 3 bits | 2 bits |  3 bits   | 3 bits | 5 bits | 0 to 80 bits |

]]></artwork></figure></t>
]]></artwork>
            </figure>
            <t>As per <xref target="RFC8724"/> target="RFC8724" format="default"/>, the All-1 must be distinguishable from a SCHC Sender-Abort message (with same RuleID, M, and N values).
The All-1 MAY <bcp14>MAY</bcp14> have the last tile of the SCHC Packet.
The SCHC Sender-Abort message header size is 1 byte, byte with no padding bits.</t>
            <t>For the All-1 message to be distinguishable from the Sender-Abort message, the Sender-Abort message MUST <bcp14>MUST</bcp14> be of 1 byte (only header with no padding).
This way, the minimum size of the All-1 is 2 bytes, and the Sender-Abort message is 1 byte.</t>
          </section>
          <section anchor="schc-ack-format-1B" title="SCHC numbered="true" toc="default">
            <name>SCHC ACK Format"> Format</name>
            <t><xref target="success-ack-1byte"/> target="success-ack-1byte" format="default"/> shows the SCHC ACK format when all fragments have been correctly received (C=1).
Padding MUST <bcp14>MUST</bcp14> be added to complete the 64-bit Sigfox Downlink frame payload size.</t>

<t><figure title="SCHC
            <figure anchor="success-ack-1byte">
              <name>SCHC Success ACK message format" anchor="success-ack-1byte"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|---- SCHC ACK Header ----|
+-------------------------+---------+
| RuleID |    W   | C=b'1 | b'0-pad |
+--------+--------+-------+---------+
| 3 bits | 2 bits | 1 bit | 58 bits |

]]></artwork></figure></t>
]]></artwork>
            </figure>
            <t>In case SCHC fragment Fragment losses are found in any of the windows of the SCHC Packet (C=0), the SCHC Compound ACK defined in <xref target="I-D.ietf-lpwan-schc-compound-ack"/> MUST target="RFC9441" format="default"/> <bcp14>MUST</bcp14> be used.
The SCHC Compound ACK message format is shown in <xref target="compound-ack-1byte"/>. target="compound-ack-1byte" format="default"/>.
</t>

<t><figure title="SCHC
            <figure anchor="compound-ack-1byte">
              <name>SCHC Compound ACK message format" anchor="compound-ack-1byte"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|--- SCHC ACK Header ---|- W=w1 -|...|----- W=wi ------|
+------+--------+-------+--------+...+--------+--------+------+-------+
|RuleID| W=b'w1 | C=b'0 | Bitmap |...| W=b'wi | Bitmap | b'00 |b'0-pad|
+------+--------+-------+--------+...+--------+--------+------+-------+
|3 bits| 2 bits | 1 bit | 7 bits |...| 2 bits | 7 bits |2 bits|

     Losses
]]></artwork>
            </figure>
	      <t>Losses are found in windows W = w1,...,wi; w1,...,wi, where w1<w2<...<wi
]]></artwork></figure></t> w1 &lt; w2 &lt;...&lt; wi.</t>
          </section>
          <section anchor="snd-abort-msg-format" title="SCHC numbered="true" toc="default">
            <name>SCHC Sender-Abort Message format">

<t><figure title="SCHC Format</name>
            <figure anchor="snd-abort-msg">
              <name>SCHC Sender-Abort message format" anchor="snd-abort-msg"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|---- Sender-Abort Header ----|
+-----------------------------+
| RuleID | W=b'11 | FCN=ALL-1 |
+--------+--------+-----------+
| 3 bits | 2 bits |  3 bits   |

]]></artwork></figure></t>
		]]></artwork>
            </figure>
          </section>
          <section anchor="rcv-abort-msg-format" title="SCHC numbered="true" toc="default">
            <name>SCHC Receiver-Abort Message format">

<t><figure title="SCHC Format</name>
            <figure anchor="rcv-abort-msg">
              <name>SCHC Receiver-Abort message format" anchor="rcv-abort-msg"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|- Receiver-Abort Header -|
+---------------------------------+-----------------+---------+
| RuleID | W=b'11 | C=b'1 |  b'11 |  0xFF (all 1's) | b'0-pad |
+--------+--------+-------+-------+-----------------+---------+
| 3 bits | 2 bits | 1 bit | 2 bit |  8 bit          | 48 bits |
          next L2 Word boundary ->| <-- L2 Word --> |

]]></artwork></figure></t>
]]></artwork>
            </figure>
          </section>
        </section>
        <section anchor="UL-ACKoE-two-byte-opt-1" title="Uplink numbered="true" toc="default">
          <name>Uplink ACK-on-Error Mode: Two-byte Two-Byte SCHC Header Option 1"> 1</name>
          <section anchor="opt-1-regular-2byte-schc-fragment" title="Regular numbered="true" toc="default">
            <name>Regular SCHC Fragment"> Fragment</name>
            <t><xref target="opt-1-reg-2byte-frag"/> target="opt-1-reg-2byte-frag" format="default"/> shows an example of a regular Regular SCHC fragment Fragment for all fragments except the last one.
The penultimate tile of a SCHC Packet is of the regular size.</t>

<t><figure title="Regular
            <figure anchor="opt-1-reg-2byte-frag">
              <name>Regular SCHC Fragment format Format for all fragments All Fragments except the last one" anchor="opt-1-reg-2byte-frag"><artwork><![CDATA[ Last One</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|------- SCHC Fragment Header ------|
+-----------------------------------+---------+
| RuleID |    W   |  FCN   | b'0000 | Payload |
+--------+--------+--------+--------+---------+
| 6 bits | 2 bits | 4 bits | 4 bits | 80 bits |
]]></artwork></figure></t>
]]></artwork>
            </figure>
            <t>The SCHC ACK REQ MUST NOT <bcp14>MUST NOT</bcp14> be used, instead the All-1 SCHC Fragment MUST <bcp14>MUST</bcp14> be used to request a SCHC ACK from the receiver (Network SCHC).
As per <xref target="RFC8724"/>, target="RFC8724" format="default"/>, the All-0 message is distinguishable from the SCHC ACK REQ (All-1 message).</t>
          </section>
          <section anchor="opt-1-all-1-2B-schc-fragment" title="All-1 numbered="true" toc="default">
            <name>All-1 SCHC Fragment"> Fragment</name>
            <t><xref target="opt-1-all-1-2B"/> target="opt-1-all-1-2B" format="default"/> shows an example of the All-1 message.
The All-1 message MUST <bcp14>MUST</bcp14> contain the last tile of the SCHC Packet.</t>
            <t>The All-1 message Fragment Header contains an RCS of 4 bits to complete the two-byte size.
   The size of the last tile ranges from 8 to 80 bits.</t>

<t><figure title="All-1
            <figure anchor="opt-1-all-1-2B">
              <name>All-1 SCHC message format Message Format with last tile" anchor="opt-1-all-1-2B"><artwork><![CDATA[ the Last Tile</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|--------- SCHC Fragment Header -------|
+--------------------------------------+--------------+
| RuleID |    W   | FCN=ALL-1 |  RCS   |    Payload   |
+--------+--------+-----------+--------+--------------+
| 6 bits | 2 bits |  4 bits   | 4 bits | 8 to 80 bits |

]]></artwork></figure></t>
]]></artwork>
            </figure>
            <t>As per <xref target="RFC8724"/> target="RFC8724" format="default"/>, the All-1 must be distinguishable from the SCHC Sender-Abort message (with same RuleID, M M, and N values).
The All-1 MUST <bcp14>MUST</bcp14> have the last tile of the SCHC Packet, Packet that MUST <bcp14>MUST</bcp14> be of at least 1 byte.
The SCHC Sender-Abort message header size is 2 byte, bytes with no padding bits.</t>
            <t>For the All-1 message to be distinguishable from the Sender-Abort message, the Sender-Abort message MUST <bcp14>MUST</bcp14> be of 2 byte bytes (only header with no padding).
This way, the minimum size of the All-1 is 3 bytes, and the Sender-Abort message is 2 bytes.</t>
          </section>
          <section anchor="opt-1-schc-ack-format-2B" title="SCHC numbered="true" toc="default">
            <name>SCHC ACK Format"> Format</name>
            <t> <xref target="opt-1-success-ack-2B"/> target="opt-1-success-ack-2B" format="default"/> shows the SCHC ACK format when all fragments have been correctly received (C=1).
Padding MUST <bcp14>MUST</bcp14> be added to complete the 64-bit Sigfox Downlink frame payload size.</t>

<t><figure title="SCHC
            <figure anchor="opt-1-success-ack-2B">
              <name>SCHC Success ACK message format" anchor="opt-1-success-ack-2B"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|---- SCHC ACK Header ----|
+-------------------------+---------+
| RuleID |    W   | C=b'1 | b'0-pad |
+--------+--------+-------+---------+
| 6 bits | 2 bits | 1 bit | 55 bits |

]]></artwork></figure></t>
]]></artwork>
            </figure>
            <t>The SCHC Compound ACK message MUST <bcp14>MUST</bcp14> be used in case SCHC fragment Fragment losses are found in any window of the SCHC Packet (C=0).
The SCHC Compound ACK message format is shown in <xref target="opt-1-schc-compound-ack-2B"/>. target="opt-1-schc-compound-ack-2B" format="default"/>.
The SCHC Compound ACK can report up to 4 windows with losses. losses, as shown in <xref target="opt-1-schc-compound-ack-2B-example-losses-all-windows"/>.</t> target="opt-1-schc-compound-ack-2B-example-losses-all-windows" format="default"/>.</t>
            <t>When sent in the Downlink, the SCHC Compound ACK MUST <bcp14>MUST</bcp14> be 0 padded (Padding (padding bits must be 0) to complement the 64 bits required by the Sigfox payload.</t>

<t><figure title="SCHC
            <figure anchor="opt-1-schc-compound-ack-2B">
              <name>SCHC Compound ACK message format" anchor="opt-1-schc-compound-ack-2B"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|--- SCHC ACK Header ---|- W=w1 -|...|---- W=wi -----|
+--------+------+-------+--------+...+------+--------+------+-------+
| RuleID |W=b'w1| C=b'0 | Bitmap |...|W=b'wi| Bitmap | b'00 |b'0-pad|
+--------+------+-------+--------+...+------+--------+------+-------+
| 6 bits |2 bits| 1 bit | 12 bits|...|2 bits| 12 bits|2 bits|

   Losses
]]></artwork>
            </figure>
	    <t>Losses are found in windows W = w1,...,wi; w1,...,wi, where w1<w2<...<wi

]]></artwork></figure></t>

<t><figure title="SCHC w1 &lt; w2 &lt;...&lt; wi.</t>
            <figure anchor="opt-1-schc-compound-ack-2B-example-losses-all-windows">
              <name>SCHC Compound ACK message format example Message Format Example with losses Losses in all windows" anchor="opt-1-schc-compound-ack-2B-example-losses-all-windows"><artwork><![CDATA[ All Windows</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|- SCHC ACK Header -|- W=0 -|      |- W=1 -|...
+------+------+-----+-------+------+-------+...
|RuleID|W=b'00|C=b'0|Bitmap |W=b'01|Bitmap |...
+------+------+-----+-------+------+-------+...
|6 bits|2 bits|1 bit|12 bits|2 bits|12 bits|...

            ...       |- W=2 -|      |- W=3 -|
            ...+------+-------+------+-------+---+
            ...|W=b'10|Bitmap |W=b'11|Bitmap |b'0|
            ...+------+-------+------+-------+---+
            ...|2 bits|12 bits|2 bits|12 bits|

    Losses
]]></artwork>
            </figure>
<t>Losses are found in windows W = w1,...,wi; w1,...,wi, where w1<w2<...<wi

]]></artwork></figure></t> w1 &lt; w2 &lt;...&lt; wi.</t>
          </section>
          <section anchor="opt-1-snd-abort-msg-2B" title="SCHC numbered="true" toc="default">
            <name>SCHC Sender-Abort Message Format">

<t><figure title="SCHC Format</name>
            <figure anchor="opt-1-snd-abort-msg-format-2B">
              <name>SCHC Sender-Abort message format" anchor="opt-1-snd-abort-msg-format-2B"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|---- Sender-Abort Header ----|
+-----------------------------+
| RuleID |   W    | FCN=ALL-1 |
+--------+--------+-----------+
| 6 bits | 2 bits |  4 bits   |

]]></artwork></figure></t>
]]></artwork>
            </figure>
          </section>
          <section anchor="opt-1-rcv-abort-msg-2B" title="SCHC numbered="true" toc="default">
            <name>SCHC Receiver-Abort Message Format">

<t><figure title="SCHC Format</name>
            <figure anchor="opt-1-rcv-abort-msg-format-2B">
              <name>SCHC Receiver-Abort message format" anchor="opt-1-rcv-abort-msg-format-2B"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|- Receiver-Abort Header -|
+---------------------------------+-----------------+---------+
| RuleID | W=b'11 | C=b'1 |  0x7F |  0xFF (all 1's) | b'0-pad |
+--------+--------+-------+-------+-----------------+---------+
| 6 bits | 2 bits | 1 bit | 7 bit |  8 bit          | 40 bits |
          next L2 Word boundary ->| <-- L2 Word --> |

]]></artwork></figure></t>
]]></artwork>
            </figure>
          </section>
        </section>
        <section anchor="UL-ACKoE-two-byte" title="Uplink numbered="true" toc="default">
          <name>Uplink ACK-on-Error Mode: Two-byte Two-Byte SCHC Header Option 2"> 2</name>
          <section anchor="opt-2regular-2byte-schc-fragment" title="Regular numbered="true" toc="default">
            <name>Regular SCHC Fragment"> Fragment</name>
            <t><xref target="opt-2-reg-2byte-frag"/> target="opt-2-reg-2byte-frag" format="default"/> shows an example of a regular Regular SCHC fragment Fragment for all fragments except the last one.
The penultimate tile of a SCHC Packet is of the regular size.</t>

<t><figure title="Regular
            <figure anchor="opt-2-reg-2byte-frag">
              <name>Regular SCHC Fragment format Format for all fragments All Fragments except the last one" anchor="opt-2-reg-2byte-frag"><artwork><![CDATA[ Last One</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|-- SCHC Fragment Header --|
+--------------------------+---------+
| RuleID |   W    | FCN    | Payload |
+--------+--------+--------+---------+
| 8 bits | 3 bits | 5 bits | 80 bits |

]]></artwork></figure></t>
]]></artwork>
            </figure>
            <t>The SCHC ACK REQ MUST NOT <bcp14>MUST NOT</bcp14> be used, instead the All-1 SCHC Fragment MUST <bcp14>MUST</bcp14> be used to request a SCHC ACK from the receiver (Network SCHC).
As per <xref target="RFC8724"/>, target="RFC8724" format="default"/>, the All-0 message is distinguishable from the SCHC ACK REQ (All-1 message).</t>
          </section>
          <section anchor="opt-2-all-1-2B-schc-fragment" title="All-1 numbered="true" toc="default">
            <name>All-1 SCHC Fragment"> Fragment</name>
            <t><xref target="opt-2-all-1-2B"/> target="opt-2-all-1-2B" format="default"/> shows an example of the All-1 message.
The All-1 message MAY <bcp14>MAY</bcp14> contain the last tile of the SCHC Packet.</t>
            <t>The All-1 message Fragment Header contains an RCS of 5 bits, bits and 3 padding bits to complete a 3-byte Fragment Header.
   The size of the last tile, if present, ranges from 8 to 72 bits.</t>

<t><figure title="All-1
            <figure anchor="opt-2-all-1-2B">
              <name>All-1 SCHC message format Message Format with last tile" anchor="opt-2-all-1-2B"><artwork><![CDATA[ the Last Tile</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|-------------- SCHC Fragment Header -----------|
+-----------------------------------------------+--------------+
| RuleID |    W   | FCN=ALL-1 |  RCS   | b'000  |    Payload   |
+--------+--------+-----------+--------+--------+--------------+
| 8 bits | 3 bits |  5 bits   | 5 bits | 3 bits | 8 to 72 bits |

]]></artwork></figure></t>
]]></artwork>
            </figure>
            <t>As per <xref target="RFC8724"/> target="RFC8724" format="default"/>, the All-1 must be distinguishable from the SCHC Sender-Abort message (with same RuleID, M M, and N values).
The SCHC Sender-Abort message header size is 2 byte, bytes with no padding bits.</t>
            <t>For the All-1 message to be distinguishable from the Sender-Abort message, the Sender-Abort message MUST <bcp14>MUST</bcp14> be of 2 byte bytes (only header with no padding).
This way, the minimum size of the All-1 is 3 bytes, and the Sender-Abort message is 2 bytes.</t>
          </section>
          <section anchor="opt-2-schc-ack-format-2B" title="SCHC numbered="true" toc="default">
            <name>SCHC ACK Format"> Format</name>
            <t> <xref target="opt-2-success-ack-2B"/> target="opt-2-success-ack-2B" format="default"/> shows the SCHC ACK format when all fragments have been correctly received (C=1).
Padding MUST <bcp14>MUST</bcp14> be added to complete the 64-bit Sigfox Downlink frame payload size.</t>

<t><figure title="SCHC
            <figure anchor="opt-2-success-ack-2B">
              <name>SCHC Success ACK message format" anchor="opt-2-success-ack-2B"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|---- SCHC ACK Header ----|
+-------------------------+---------+
| RuleID |    W   | C=b'1 | b'0-pad |
+--------+--------+-------+---------+
| 8 bits | 3 bits | 1 bit | 52 bits |

]]></artwork></figure></t>
]]></artwork>
            </figure>
            <t>The SCHC Compound ACK message MUST <bcp14>MUST</bcp14> be used in case SCHC fragment Fragment losses are found in any window of the SCHC Packet (C=0).
The SCHC Compound ACK message format is shown in <xref target="opt-2-schc-compound-ack-2B"/>. target="opt-2-schc-compound-ack-2B" format="default"/>.
The SCHC Compound ACK can report up to 3 windows with losses.</t>
            <t>When sent in the Downlink, the SCHC Compound ACK MUST <bcp14>MUST</bcp14> be 0 padded (Padding (padding bits must be 0) to complement the 64 bits required by
the Sigfox payload.</t>

<t><figure title="SCHC
            <figure anchor="opt-2-schc-compound-ack-2B">
              <name>SCHC Compound ACK message format" anchor="opt-2-schc-compound-ack-2B"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|-- SCHC ACK Header --|- W=w1 -|...|---- W=wi -----|
+------+------+-------+--------+...+------+--------+------+-------+
|RuleID|W=b'w1| C=b'0 | Bitmap |...|W=b'wi| Bitmap | 000  |b'0-pad|
+------+------+-------+--------+...+------+--------+------+-------+
|8 bits|3 bits| 1 bit | 31 bits|...|3 bits| 31 bits|3 bits|

     Losses
]]></artwork>
            </figure>
	    <t>Losses are found in windows W = w1,...,wi; w1,...,wi, where w1<w2<...<wi

]]></artwork></figure></t> w1 &lt; w2 &lt;...&lt; wi.</t>
          </section>
          <section anchor="snd-abort-msg-2B" title="SCHC numbered="true" toc="default">
            <name>SCHC Sender-Abort Message Format">

<t><figure title="SCHC Format</name>
            <figure anchor="snd-abort-msg-format-2B">
              <name>SCHC Sender-Abort message format" anchor="snd-abort-msg-format-2B"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|---- Sender-Abort Header ----|
+-----------------------------+
| RuleID |   W    | FCN=ALL-1 |
+--------+--------+-----------+
| 8 bits | 3 bits |  5 bits   |

]]></artwork></figure></t>
]]></artwork>
            </figure>
          </section>
          <section anchor="rcv-abort-msg-2B" title="SCHC numbered="true" toc="default">
            <name>SCHC Receiver-Abort Message Format">

<t><figure title="SCHC Format</name>
            <figure anchor="rcv-abort-msg-format-2B">
              <name>SCHC Receiver-Abort message format" anchor="rcv-abort-msg-format-2B"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|-- Receiver-Abort Header -|
+-----------------------------------+-----------------+---------+
| RuleID | W=b'111 | C=b'1 | b'1111 |  0xFF (all 1's) | b'0-pad |
+--------+---------+-------+--------+-----------------+---------+
| 8 bits |  3 bits | 1 bit | 4 bit  |  8 bit          | 40 bits |
            next L2 Word boundary ->| <-- L2 Word --> |

]]></artwork></figure></t>
]]></artwork>
            </figure>
          </section>
        </section>
        <section anchor="DL-ACK-Always" title="Downlink numbered="true" toc="default">
          <name>Downlink ACK-Always Mode: Single-byte Single-Byte SCHC Header"> Header</name>
          <section anchor="DL-ACK-Always-1byte-schc-fragment" title="Regular numbered="true" toc="default">
            <name>Regular SCHC Fragment"> Fragment</name>
            <t><xref target="DL-ACK-Always-1byte-frag"/> target="DL-ACK-Always-1byte-frag" format="default"/> shows an example of a regular Regular SCHC fragment Fragment for all fragments except the last one.
The penultimate tile of a SCHC Packet is of the regular size.</t>

<t><figure title="Regular
            <figure anchor="DL-ACK-Always-1byte-frag">
              <name>Regular SCHC Fragment format Format for all fragments All Fragments except the last one" anchor="DL-ACK-Always-1byte-frag"><artwork><![CDATA[ Last One</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
   SCHC Fragment
|--    Header   --|
+-----------------+---------+
| RuleID |  FCN   | Payload |
+--------+--------+---------+
| 3 bits | 5 bits | 56 bits |

]]></artwork></figure></t>
]]></artwork>
            </figure>
            <t>The SCHC ACK MUST NOT <bcp14>MUST NOT</bcp14> be used, instead the All-1 SCHC Fragment MUST <bcp14>MUST</bcp14> be used to request a SCHC ACK from the receiver.
As per <xref target="RFC8724"/>, target="RFC8724" format="default"/>, the All-0 message is distinguishable from the SCHC ACK REQ (All-1 message).</t>
          </section>
          <section anchor="DL-ACK-Always-1B-all-1-schc-fragment" title="All-1 numbered="true" toc="default">
            <name>All-1 SCHC Fragment"> Fragment</name>
            <t><xref target="DL-ACK-Always-1B-all-1"/> target="DL-ACK-Always-1B-all-1" format="default"/> shows an example of the All-1 message.
The All-1 message MAY <bcp14>MAY</bcp14> contain the last tile of the SCHC Packet.</t>
            <t>The All-1 message Fragment Header contains an RCS of 5 bits, bits and 3 padding bits to complete a 2-byte Fragment Header.
   The size of the last tile, if present, ranges from 8 to 48 bits.</t>

<t><figure title="All-1
            <figure anchor="DL-ACK-Always-1B-all-1">
              <name>All-1 SCHC message format Message Format with last tile" anchor="DL-ACK-Always-1B-all-1"><artwork><![CDATA[ the Last Tile</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|--------- SCHC Fragment Header -------|
+--------------------------------------+--------------+
| RuleID | FCN=ALL-1 |  RCS   | b'000  |    Payload   |
+--------+-----------+--------+--------+--------------+
| 3 bits |  5 bits   | 5 bits | 3 bits | 0 to 48 bits |

]]></artwork></figure></t>
]]></artwork>
            </figure>
            <t>As per <xref target="RFC8724"/> target="RFC8724" format="default"/>, the All-1 must be distinguishable from the SCHC Sender-Abort message (with same RuleID and N values).
The SCHC Sender-Abort message header size is 1 byte, byte with no padding bits.</t>
            <t>For the All-1 message to be distinguishable from the Sender-Abort message, the Sender-Abort message MUST <bcp14>MUST</bcp14> be of 1 byte (only header with no padding).
This way, the minimum size of the All-1 is 2 bytes, and the Sender-Abort message is 1 bytes.</t>
          </section>
          <section anchor="DL-ACK-Always-1B-schc-ack-format" title="SCHC numbered="true" toc="default">
            <name>SCHC ACK Format"> Format</name>
            <t> <xref target="DL-ACK-Always-1B-success-ack"/> target="DL-ACK-Always-1B-success-ack" format="default"/> shows the SCHC ACK format when all fragments have been correctly received (C=1).
Padding MUST <bcp14>MUST</bcp14> be added to complete 2 bytes.</t>

<t><figure title="SCHC
            <figure anchor="DL-ACK-Always-1B-success-ack">
              <name>SCHC Success ACK message format" anchor="DL-ACK-Always-1B-success-ack"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
     SCHC ACK
|--   Header   --|
+----------------+---------+
| RuleID | C=b'1 | b'0-pad |
+--------+-------+---------+
| 3 bits | 1 bit |  4 bits |

]]></artwork></figure></t>
]]></artwork>
            </figure>
            <t>
The SCHC ACK message format is shown in <xref target="DL-ACK-Always-1B-schc-compound-ack"/>. target="DL-ACK-Always-1B-schc-compound-ack" format="default"/>.
</t>

<t><figure title="SCHC
            <figure anchor="DL-ACK-Always-1B-schc-compound-ack">
              <name>SCHC Compound ACK message format" anchor="DL-ACK-Always-1B-schc-compound-ack"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
|---- SCHC ACK Header ----|
+--------+-------+--------+---------+
| RuleID | C=b'0 | Bitmap | b'0-pad |
+--------+-------+--------+---------+
| 3 bits | 1 bit | 31 bits|  5 bits |
]]></artwork></figure></t>
        <!--    End Section SCHC ACK Format-->
]]></artwork>
            </figure>
</section>
          <section anchor="DL-ACK-Always-1B-snd-abort-msg" title="SCHC numbered="true" toc="default">
            <name>SCHC Sender-Abort Message Format">

<t><figure title="SCHC Format</name>
            <figure anchor="DL-ACK-Always-1B-snd-abort-msg-format">
              <name>SCHC Sender-Abort message format" anchor="DL-ACK-Always-1B-snd-abort-msg-format"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
     Sender-Abort
|----   Header   ----|
+--------------------+
| RuleID | FCN=ALL-1 |
+--------+-----------+
| 3 bits |  5 bits   |

]]></artwork></figure></t>

<!-- End Section SCHC Sender-Abort Message Format-->
]]></artwork>
            </figure>
</section>
          <section anchor="DL-ACK-Always-1B-rcv-abort-msg" title="SCHC numbered="true" toc="default">
            <name>SCHC Receiver-Abort Message Format">

<t><figure title="SCHC Format</name>
            <figure anchor="DL-ACK-Always-1B-rcv-abort-msg-format">
              <name>SCHC Receiver-Abort message format" anchor="DL-ACK-Always-1B-rcv-abort-msg-format"><artwork><![CDATA[ Message Format</name>
              <artwork name="" type="" align="center" alt=""><![CDATA[
  Receiver-Abort
|---  Header  ---|
+----------------+--------+-----------------+
| RuleID | C=b'1 | b'1111 |  0xFF (all 1's) |
+--------+-------+--------+-----------------+
| 3 bits | 1 bit | 4 bit  |  8 bit          |

]]></artwork></figure></t>

<!-- End Section SCHC Receiver-Abort Message Format-->
]]></artwork>
            </figure>
</section>

<!--    End Section Downlink ACK-ALways Mode-->
</section>

<!--    End of Section SCHC Fragment Message Formats-->
</section>

<!--<section anchor="schc_sender_abort" title="SCHC Sender-Abort">-->

<!--<t><list style="symbols">-->
<!--<t>As defined in <xref target="RFC8724"/>, a SCHC Sender-Abort can be triggered when the number of SCHC ACK REQ attempts is greater than or equal to MAX_ACK_REQUESTS. -->
<!--In the case of SCHC/Sigfox, a SCHC Sender-Abort MUST be sent if the number of repeated All-1s (i.e., with the same bitmap) sent in sequence is greater than or equal to MAX_ACK_REQUESTS. </t>-->

<!--&lt;!&ndash;<t>The Attempts counter MUST be reset when a SCHC ACK is successfully received.</t>&ndash;&gt;-->
<!--</list></t>-->

<!--</section>-->

<!--<section anchor="schc_receiver_abort" title="SCHC Receiver-Abort">-->

<!--<t><list style="symbols">-->
<!--<t>As defined in <xref target="RFC8724"/>, a SCHC Receiver-Abort is triggered when the receiver has no RuleID and DTag pairs available for a new session.-->
<!--In the case of SCHC/Sigfox a SCHC Receiver-Abort MUST be sent if, for a single device, all the RuleIDs are being processed by the receiver (i.e., have an active session) -->
<!--at a certain time and a new one is requested, or if the RuleID of the fragment is not valid.</t>-->

<!--<t>A SCHC Receiver-Abort MUST be triggered when the Inactivity Timer expires. </t>-->

<!--<t>MAX_ACK_REQUESTS can be increase when facing high error rates. </t>-->

<!--&lt;!&ndash;<t>A SCHC-Receiver Abort can be triggered when the number of ACK attempts is not strictly less than MAX_ACK_REQUESTS. In the case of SCHC/Sigfox, &ndash;&gt;-->
<!--&lt;!&ndash;a SCHC-Receiver Abort MUST be sent if the number of repeated SCHC ACKs sent in a row (i.e., synchronized with the ACK REQ case, and with identical bitmaps) &ndash;&gt;-->
<!--&lt;!&ndash;is greater than or equal to MAX_ACK_REQUESTS.</t>&ndash;&gt;-->

<!--<t>Although a SCHC Receiver-Abort can be triggered at any point in time, a SCHC Receiver-Abort Downlink message MUST only be sent when there is a Downlink transmission opportunity.</t>-->
<!--</list></t>-->

<!--</section>-->
<section anchor="padding" title="Padding"> numbered="true" toc="default">
        <name>Padding</name>
        <t>The Sigfox payload fields have different characteristics in Uplink and Downlink.</t>
        <t>Uplink messages can contain a payload size from 0 to 12 bytes. The Sigfox radio protocol allows sending zero bits,
one single bit of information for binary applications (e.g., status), or an integer number of bytes.
Therefore, for 2 or more bits of payload payload, it is required to add padding to the next integer number of bytes. The reason for this
flexibility is to optimize transmission time and hence save battery consumption at the device.</t>

<t>Downlink frames on
        <t>On the other hand hand, Downlink frames have a fixed length. The payload length MUST <bcp14>MUST</bcp14> be 64 bits (i.e., 8 bytes). Hence, if less
information bits are to be transmitted, padding MUST <bcp14>MUST</bcp14> be used with bits equal to 0.
    The receiver MUST <bcp14>MUST</bcp14> remove the added padding bits before the SCHC reassembly process.</t>
      </section>
    </section>
    <section anchor="fragmentation-rules-examples" title="Fragmentation numbered="true" toc="default">
      <name>Fragmentation Rules Examples"> Examples</name>
      <t>This section provides an example of RuleIDs RuleID configuration for interoperability between the F/R modes presented in this document.
    Note that the RuleID space for Uplink F/R is different than the one for Downlink F/R, therefore F/R; therefore, this section is divided in two subsections: Rules for Uplink fragmentation and Rules for Downlink fragmentation.
</t>
      <t>For Uplink F/R, multiple header length lengths were described in <xref target="Frag"/>. target="Frag" format="default"/>.
    All of them are part of the SCHC over Sigfox Profile, Profile and offer not only low protocol overhead for small payloads (single byte header) but also extensibility to transport larger payloads with more overhead (2 bytes (2-byte header, option Options 1 and 2).
    The usage of the RuleID space for each header length is an implementation choice, but we provide an example of it in the following section.
    This illustrates implementation choices made in order to 1) identify the different header length, length and 2) finally parse the RuleID field to identify the RuleID value and execute the associated treatment.
</t>
      <section anchor="uplink-fragmentation-rules-examples" title="Uplink numbered="true" toc="default">
        <name>Uplink Fragmentation Rules Examples"> Examples</name>
        <t>
      The RuleID field for Uplink F/R modes have has different sizes depending on the header length.
In order to identify the header length and then the value of the RuleID, the RuleID field
 is interpreted as follows:
        </t>
 <t><list style="symbols">
     <t>The
        <ul spacing="normal">
          <li>The RuleID field is the first one to be parsed in the SCHC header, starting from the leftmost bits.</t>
     <t>For bits.</li>
          <li><t>For Single-byte SCHC Header F/R modes, it is expected a RuleID field of 3 bits:</t>
          <t><list style="symbols">
        <t>
            if bits is expected:</t>
            <ul spacing="normal">
              <li>If the first 3 leftmost bits have a value different than 0b'111, then it signals a Single-byte SCHC Header F/R mode,
        </t>
              <t>
                  if mode.</li>
              <li>If their value is 0b'111, then it signals a Two-byte SCHC Header F/R mode.
              </t>
        </list></t>
    </list></t>

    <t><list style="symbols">
        <t>For
              </li>
            </ul>
          </li>
          <li><t>For Single-byte SCHC Header F/R modes:</t>
         <t><list style="symbols">
         <t>there
            <ul spacing="normal">
              <li>There are 7 RuleIDs available (with values from 0b'000-0b'110), 0b'000-0b'110); the RuleID with value 0b'111 is reserved to indicate a Two-byte SCHC Header.</t>
             <t>This Header.</li>
              <li>This set of rules Rules is called “standard rules”, "standard rules", and it is used to implement Single-byte SCHC header modes.</t>
             <t>Each Header modes.</li>
              <li>Each RuleID is associated with a set of properties defining if Uplink F/R is used and which Uplink F/R mode is used. As an example, the RuleID 0b'000 is mapped onto Uplink No-ACK Mode: Single-byte SCHC Header, and the RuleIDs 0b'001 and 0b'002 are mapped onto Uplink ACK-on-Error Mode: mode: Single-byte SCHC Header (2 RuleIDs to allow for SCHC Packet interleaving).</t>
        </list></t>
        <t>For interleaving).</li>
            </ul>
          </li>
          <li><t>For Two-byte SCHC Header F/R modes modes, at least 6 bits for the RuleID field are expected:</t>
                 <t><list style="symbols">
                     <t>the
            <ul spacing="normal">
              <li><t>The 3 first leftmost bits are always 0b'111,</t>
                     <t><list style="symbols">
                     <t>if 0b'111.</t>
                <ul spacing="normal">
                  <li>If the following 3 bits have a different value than 0b'111, then it signals the Two-byte SCHC Header Option 1, </t>
                     <t>if 1.</li>
                  <li>If the following 3 bits are 0b'111, then it signals the Two-byte SCHC Header Option 2.</t>
                         </list></t>
     <t>For 2.</li>
                </ul>
              </li>
              <li>For the Two-byte SCHC Header Option 1, there are 7 RuleIDs available (0b'111000-0b'111110), 0b'111111 being reserved to indicate the Two-byte SCHC Header Option 2. This set of rules Rules is called “extended rules”, "extended rules", and it is used to implement the Uplink ACK-on-Error Mode: mode: Two-byte SCHC Header Option 1.</t>
     <t>For 1.</li>
              <li>For the Two-byte SCHC Header Option 2, there are 2 additional bits to parse as the RuleID, so 4 RuleIDs are available (0b'11111100-0b'11111111). This set of rules Rules is used to cover specific cases that previous RuleIDs do not cover. As an example, RuleID 0b’00111111 0b'00111111 is used to transport uncompressed IPv6 packets using the Uplink ACK-on-Error Mode: mode: Two-byte SCHC Header Option 2.</t>
        </list></t>
 </list></t> 2.</li>
            </ul>
          </li>
        </ul>
      </section>
      <section anchor="downlink-fragmentation-rules-examples" title="Downlink numbered="true" toc="default">
        <name>Downlink Fragmentation Rules Example">
 <t><list style="symbols"> Example</name>
        <t>For the Downlink ACK-Always Mode: Single-byte SCHC Header, RuleIDs can get values in ranges from 0b'000 to 0b'111.</t>

</list></t>
      </section>
    </section>
    <section anchor="sequence-examples" title="Fragmentation numbered="true" toc="default">
      <name>Fragmentation Sequence Examples"> Examples</name>
      <t>In this section, some sequence diagrams depicting messages depict message exchanges for different fragmentation modes and use cases are shown.
In the examples, 'Seq' indicates the Sigfox Sequence Number of the frame carrying a fragment.</t>
      <section anchor="no-ack-examples" title="Uplink numbered="true" toc="default">
        <name>Uplink No-ACK Examples"> Examples</name>
        <t>The FCN field indicates the size of the data packet.
The first fragment is marked with FCN = X-1, where X is the number of fragments the message is split into.
All fragments are marked with decreasing FCN values.
Last
	The last packet fragment is marked with the FCN = All-1 (1111). </t>

<t>Case
        <t><strong>Case No losses Losses - All fragments are sent and received successfully.</t> successfully.</strong></t>
        <figure title="Uplink anchor="UL-No-ACK-NL">
          <name>Uplink No-ACK No-Losses" anchor="UL-No-ACK-NL"><artwork><![CDATA[ No-Losses</name>
          <artwork name="" type="" align="center" alt=""><![CDATA[
Sender                     Receiver
  |-------FCN=6,Seq=1-------->|
  |-------FCN=5,Seq=2-------->|
  |-------FCN=4,Seq=3-------->|
  |-------FCN=3,Seq=4-------->|
  |-------FCN=2,Seq=5-------->|
  |-------FCN=1,Seq=6-------->|
  |-------FCN=15,Seq=7------->| All fragments received
(End)

]]></artwork></figure>
]]></artwork>
        </figure>
        <t>When the first SCHC fragment Fragment is received, the Receiver receiver can calculate the
total number of SCHC fragments Fragments that the SCHC Packet is composed of.
For example, if the first fragment is numbered with FCN=6, the receiver can
expect six more messages/fragments (i.e., with FCN going from 5 downwards, downwards and the last fragment with an
FCN equal to 15).</t>

<t>Case losses
        <t><strong>Case Losses on any fragment Any Fragment except the first.</t> First</strong></t>
        <figure title="Uplink anchor="UL-No-ACK-L-1">
          <name>Uplink No-ACK Losses (scenario 1)" anchor="UL-No-ACK-L-1"><artwork><![CDATA[ (Scenario 1)</name>
          <artwork name="" type="" align="center" alt=""><![CDATA[
Sender                     Receiver
  |-------FCN=6,Seq=1-------->|
  |-------FCN=5,Seq=2----X    |
  |-------FCN=4,Seq=3-------->|
  |-------FCN=3,Seq=4-------->|
  |-------FCN=2,Seq=5-------->|
  |-------FCN=1,Seq=6-------->|
  |-------FCN=15,Seq=7------->| Missing Fragment Unable to reassemble
(End)

]]></artwork></figure>
]]></artwork>
        </figure>
      </section>
      <section anchor="ack-on-error-examples-1B-header" title="Uplink numbered="true" toc="default">
        <name>Uplink ACK-on-Error Examples: Single-byte Single-Byte SCHC Header"> Header</name>
        <t>The single-byte Single-byte SCHC header Header ACK-on-Error mode allows sending up to 28 fragments and packet sizes up to
300 bytes. The SCHC fragments Fragments may be delivered asynchronously asynchronously, and Downlink ACK can be sent opportunistically. </t>

<t>Case
        <t><strong>Case No losses</t> Losses</strong></t>
        <t>The Downlink flag must be enabled in the sender Uplink message to allow a Downlink message from the receiver.
The Downlink Enable in the figures shows where the sender MUST <bcp14>MUST</bcp14> enable the Downlink, Downlink and
	wait for an ACK.</t>

        <figure title="Uplink anchor="UL-ACKoE-NL">
          <name>Uplink ACK-on-Error No-Losses" anchor="UL-ACKoE-NL"><artwork><![CDATA[ No-Losses</name>
          <artwork name="" type="" align="center" alt=""><![CDATA[
        Sender                    Receiver
          |-----W=0,FCN=6,Seq=1----->|
          |-----W=0,FCN=5,Seq=2----->|
          |-----W=0,FCN=4,Seq=3----->|
          |-----W=0,FCN=3,Seq=4----->|
          |-----W=0,FCN=2,Seq=5----->|
          |-----W=0,FCN=1,Seq=6----->|
DL Enable |-----W=0,FCN=0,Seq=7----->|
      (no ACK)
          |-----W=1,FCN=6,Seq=8----->|
          |-----W=1,FCN=5,Seq=9----->|
          |-----W=1,FCN=4,Seq=10---->|
DL Enable |-----W=1,FCN=7,Seq=11---->| All fragments received
          |<- Compound ACK,W=1,C=1 --| C=1
        (End)

]]></artwork></figure>

<t>Case
]]></artwork>
        </figure>
        <t><strong>Case Fragment losses Losses in first window</t> the First Window</strong></t>
        <t>In this case, fragments are lost in the first window (W=0).
After the first All-0 message arrives, the Receiver receiver
leverages the opportunity and sends a SCHC ACK with the corresponding bitmap and C=0.</t>
        <t>After the loss fragments from the first window (W=0) are resent, the sender continues
transmitting the fragments of the following window (W=1) without opening a reception opportunity.
Finally, the All-1 fragment is sent, the Downlink is enabled, and the SCHC ACK is received with C=1.
	Note that the SCHC Compound ACK also uses a Sequence Number. </t>
        <figure title="Uplink anchor="UL-ACKoE-LW1">
          <name>Uplink ACK-on-Error Losses on in the First Window" anchor="UL-ACKoE-LW1"><artwork><![CDATA[ Window</name>
          <artwork name="" type="" align="center" alt=""><![CDATA[
        Sender                    Receiver
          |-----W=0,FCN=6,Seq=1----->|
          |-----W=0,FCN=5,Seq=2--X   |
          |-----W=0,FCN=4,Seq=3----->|
          |-----W=0,FCN=3,Seq=4----->|
          |-----W=0,FCN=2,Seq=5--X   |                    __
          |-----W=0,FCN=1,Seq=6----->|                   | W=0
DL Enable |-----W=0,FCN=0,Seq=7----->| Missing Fragments<- FCN=5,Seq=2
          |<- Compound ACK,W=0,C=0 --| Bitmap:1011011    | FCN=2,Seq=5
          |-----W=0,FCN=5,Seq=9----->|                    --
          |-----W=0,FCN=2,Seq=10---->|
          |-----W=1,FCN=6,Seq=11---->|
          |-----W=1,FCN=5,Seq=12---->|
          |-----W=1,FCN=4,Seq=13---->|
DL Enable |-----W=1,FCN=7,Seq=14---->| All fragments received
          |<-Compound ACK,W=1,C=1 ---| C=1
        (End)

]]></artwork></figure>

<t>Case
]]></artwork>
        </figure>
        <t><strong>Case Fragment All-0 lost Lost in first window (W=0)</t> the First Window (W=0)</strong></t>
        <t>In this example, the All-0 of the first window (W=0) is lost. Therefore,
the Receiver receiver waits for the next All-0 message of intermediate windows, windows or All-1 message of last window to generate
the corresponding SCHC ACK, notifying the absence of which indicates that the All-0 of window 0.</t> 0 is absent.</t>
        <t>The sender resends the missing All-0 messages (with any other missing
fragment from window 0) without opening a reception opportunity.</t>
        <figure title="Uplink anchor="UL-ACKoE-LA0W1">
          <name>Uplink ACK-on-Error All-0 Lost on in the First Window" anchor="UL-ACKoE-LA0W1"><artwork><![CDATA[ Window</name>
          <artwork name="" type="" align="center" alt=""><![CDATA[
        Sender                    Receiver
          |-----W=0,FCN=6,Seq=1----->|
          |-----W=0,FCN=5,Seq=2----->|
          |-----W=0,FCN=4,Seq=3----->|
          |-----W=0,FCN=3,Seq=4----->|
          |-----W=0,FCN=2,Seq=5----->|
          |-----W=0,FCN=1,Seq=6----->| DL Enable
	  |-----W=0,FCN=0,Seq=7--X   |
      (no ACK)
          |-----W=1,FCN=6,Seq=8----->|
          |-----W=1,FCN=5,Seq=9----->|                    __
          |-----W=1,FCN=4,Seq=10---->|                   |W=0
DL Enable |-----W=1,FCN=7,Seq=11---->| Missing Fragment<- FCN=0,Seq=7
          |<-Compound ACK,W=0,C=0 ---| Bitmap:1111110    |__
          |-----W=0,FCN=0,Seq=13---->| All fragments received
DL Enable |-----W=1,FCN=7,Seq=14---->|
          |<-Compound ACK,W=1,C=1 ---| C=1
        (End)

]]></artwork></figure>
]]></artwork>
        </figure>
        <t>In the following diagram, besides the All-0 All-0, there are other fragment losses in the first window (W=0).</t>
        <figure title="Uplink anchor="UL-ACKoE-LA0FW1">
          <name>Uplink ACK-on-Error All-0 and other Other Fragments Lost on in the First Window" anchor="UL-ACKoE-LA0FW1"><artwork><![CDATA[ Window</name>
          <artwork name="" type="" align="center" alt=""><![CDATA[
        Sender                    Receiver
          |-----W=0,FCN=6,Seq=1----->|
          |-----W=0,FCN=5,Seq=2--X   |
          |-----W=0,FCN=4,Seq=3----->|
          |-----W=0,FCN=3,Seq=4--X   |
          |-----W=0,FCN=2,Seq=5----->|
          |-----W=0,FCN=1,Seq=6----->|
DL Enable |-----W=0,FCN=0,Seq=7--X   |
      (no ACK)
          |-----W=1,FCN=6,Seq=8----->|
          |-----W=1,FCN=5,Seq=9----->|                    __
          |-----W=1,FCN=4,Seq=10---->|                   |W=0
DL Enable |-----W=1,FCN=7,Seq=11---->| Missing Fragment<- FCN=5,Seq=2
          |<--Compound ACK,W=0,C=0 --| Bitmap:1010110    |FCN=3,Seq=4
          |-----W=0,FCN=5,Seq=13---->|                   |FCN=0,Seq=7
          |-----W=0,FCN=3,Seq=14---->|                    --
          |-----W=0,FCN=0,Seq=15---->| All fragments received
DL Enable |-----W=1,FCN=7,Seq=16---->|
          |<-Compound ACK,W=1,C=1 ---| C=1
        (End)

]]></artwork></figure>
]]></artwork>
        </figure>
        <t>In the next examples, there are fragment losses in both the first (W=0) and second (W=1) windows.
The retransmission cycles after the All-1 is sent (i.e., not in intermediate windows) MUST <bcp14>MUST</bcp14>
always finish with an All-1, as it serves as an ACK Request message to confirm the correct reception
of the retransmitted fragments. </t>
        <figure title="Uplink anchor="UL-ACKoE-LFW12-1">
          <name>Uplink ACK-on-Error All-0 and other Other Fragments Lost on in the First and Second Windows (1)" anchor="UL-ACKoE-LFW12-1"><artwork><![CDATA[ (1)</name>
          <artwork name="" type="" align="center" alt=""><![CDATA[
        Sender                    Receiver
          |-----W=0,FCN=6,Seq=1----->|
          |-----W=0,FCN=5,Seq=2--X   |
          |-----W=0,FCN=4,Seq=3----->|
          |-----W=0,FCN=3,Seq=4--X   |                    __
          |-----W=0,FCN=2,Seq=5----->|                   |W=0
          |-----W=0,FCN=1,Seq=6----->|                   |FCN=5,Seq=2
DL enable Enable |-----W=0,FCN=0,Seq=7--X   |                   |FCN=3,Seq=4
     (no ACK)                                            |FCN=0,Seq=7
          |-----W=1,FCN=6,Seq=8--X   |                   |W=1
          |-----W=1,FCN=5,Seq=9----->|                   |FCN=6,Seq=8
          |-----W=1,FCN=4,Seq=10-X   |                   |FCN=4,Seq=10
DL enable Enable |-----W=1,FCN=7,Seq=11---->| Missing Fragment<-|__
          |<-Compound ACK,W=0,1,C=0--| Bitmap W=0:1010110
          |-----W=0,FCN=5,Seq=13---->|        W=1:0100001
          |-----W=0,FCN=3,Seq=14---->|
          |-----W=0,FCN=0,Seq=15---->|
          |-----W=1,FCN=6,Seq=16---->|
          |-----W=1,FCN=4,Seq=17---->| All fragments received
DL enable Enable |-----W=1,FCN=7,Seq=18---->|
          |<-Compound ACK,W=1,C=1----| C=1
        (End)

]]></artwork></figure>

<t>Similar
]]></artwork>
        </figure>
        <t>The figure below is a similar case as above, above but with fewer fragments in the second window (W=1)</t> (W=1).</t>
        <figure title="Uplink anchor="UL-ACKoE-LFW12-2">
          <name>Uplink ACK-on-Error All-0 and other Other Fragments Lost on in the First and Second Windows (2)" anchor="UL-ACKoE-LFW12-2"><artwork><![CDATA[ (2)</name>
          <artwork name="" type="" align="center" alt=""><![CDATA[
        Sender                    Receiver
          |-----W=0,FCN=6,Seq=1----->|
          |-----W=0,FCN=5,Seq=2--X   |
          |-----W=0,FCN=4,Seq=3----->|
          |-----W=0,FCN=3,Seq=4--X   |
          |-----W=0,FCN=2,Seq=5----->|                     __
          |-----W=0,FCN=1,Seq=6----->|                    |W=0
DL enable Enable |-----W=0,FCN=0,Seq=7--X   |                    |FCN=5,Seq=2
       (no ACK)                                           |FCN=3,Seq=4
          |-----W=1,FCN=6,Seq=8--X   |                    |FCN=0,Seq=7
DL enable Enable |-----W=1,FCN=7,Seq=9----->| Missing Fragment--> W=1
          |<-Compound ACK,W=0,1, C=0-| Bitmap W=0:1010110,|FCN=6,Seq=8
          |-----W=0,FCN=5,Seq=11---->|        W=1:0000001 |__
          |-----W=0,FCN=3,Seq=12---->|
          |-----W=0,FCN=0,Seq=13---->|
          |-----W=1,FCN=6,Seq=14---->| All fragments received
DL enable Enable |-----W=1,FCN=7,Seq=15---->|
          |<-Compound ACK, W=1,C=1---| C=1
        (End)

]]></artwork></figure>

<t>Case
]]></artwork>
        </figure>
        <t><strong>Case SCHC ACK is lost</t> Lost</strong></t>
        <t>SCHC over Sigfox does not implement the SCHC ACK REQ message. Instead, it uses the SCHC All-1 message to request a SCHC ACK, ACK when required.</t>
        <figure title="Uplink anchor="UL-ACKoE-ACKL">
          <name>Uplink ACK-on-Error ACK Lost" anchor="UL-ACKoE-ACKL"><artwork><![CDATA[ Lost</name>
          <artwork name="" type="" align="center" alt=""><![CDATA[
       Sender                     Receiver
          |-----W=0,FCN=6,Seq=1----->|
          |-----W=0,FCN=5,Seq=2----->|
          |-----W=0,FCN=4,Seq=3----->|
          |-----W=0,FCN=3,Seq=4----->|
          |-----W=0,FCN=2,Seq=5----->|
          |-----W=0,FCN=1,Seq=6----->|
DL Enable |-----W=0,FCN=0,Seq=7----->|
      (no ACK)
          |-----W=1,FCN=6,Seq=8----->|
          |-----W=1,FCN=5,Seq=9----->|
          |-----W=1,FCN=4,Seq=10---->|
DL Enable |-----W=1,FCN=7,Seq=11---->| All fragments received
          | X--Compound ACK,W=1,C=1 -| C=1
DL Enable |-----W=1,FCN=7,Seq=13---->| RESEND ACK
          |<-Compound ACK,W=1,C=1 ---| C=1
        (End)

]]></artwork></figure>

<t>Case
]]></artwork>
        </figure>
        <t><strong>Case SCHC Compound ACK at the end</t> End</strong></t>
        <t>In this example, SCHC Fragment losses are found in both window windows 0 and 1. However, the sender does not send a
SCHC Compound ACK after the All-0 of window 0. Instead, it sends a SCHC Compound ACK notifying indicating fragment losses of on both windows.
</t>
        <figure title="Uplink anchor="UL-ACKoE-LFW12-3">
          <name>Uplink ACK-on-Error Fragments Lost on in the First and Second Windows with one One Compound ACK" anchor="UL-ACKoE-LFW12-3"><artwork><![CDATA[ ACK</name>
          <artwork name="" type="" align="center" alt=""><![CDATA[
        Sender                    Receiver
          |-----W=0,FCN=6,Seq=1----->|
          |-----W=0,FCN=5,Seq=2--X   |
          |-----W=0,FCN=4,Seq=3----->|
          |-----W=0,FCN=3,Seq=4--X   |
          |-----W=0,FCN=2,Seq=5----->|
          |-----W=0,FCN=1,Seq=6----->|                     __
DL enable Enable |-----W=0,FCN=0,Seq=7----->| Waits for          |W=0
       (no ACK)                       next DL opportunity |FCN=5,Seq=2
          |-----W=1,FCN=6,Seq=8--X   |                    |FCN=3,Seq=4
DL enable Enable |-----W=1,FCN=7,Seq=9----->| Missing Fragment<-- W=1
          |<-Compound ACK,W=0,1, C=0-| Bitmap W=0:1010110 |FCN=6,Seq=8
          |-----W=0,FCN=5,Seq=11---->|        W=1:0000001  --
          |-----W=0,FCN=3,Seq=12---->|
          |-----W=1,FCN=6,Seq=13---->| All fragments received
DL enable Enable |-----W=1,FCN=7,Seq=14---->|
          |<-Compound ACK, W=1, C=1 -| C=1
        (End)

]]></artwork></figure>
]]></artwork>
        </figure>
        <t>The number of times the same SCHC ACK message will be retransmitted is determined by the
 MAX_ACK_REQUESTS.</t>
      </section>
      <section anchor="abort-examples" title="SCHC numbered="true" toc="default">
        <name>SCHC Abort Examples">

 <t>Case Examples</name>
        <t><strong>Case SCHC Sender-Abort</t> Sender-Abort</strong></t>
        <t>The sender may need to send a Sender-Abort to stop the current communication.
This may happen, for For example, this may happen if the All-1 has been sent MAX_ACK_REQUESTS times.</t>
        <figure title="Uplink anchor="UL-ACKoE-SndAbt">
          <name>Uplink ACK-on-Error Sender-Abort" anchor="UL-ACKoE-SndAbt"><artwork><![CDATA[ Sender-Abort</name>
          <artwork name="" type="" align="center" alt=""><![CDATA[
        Sender                    Receiver
          |-----W=0,FCN=6,Seq=1----->|
          |-----W=0,FCN=5,Seq=2----->|
          |-----W=0,FCN=4,Seq=3----->|
          |-----W=0,FCN=3,Seq=4----->|
          |-----W=0,FCN=2,Seq=5----->|
          |-----W=0,FCN=1,Seq=6----->|
DL Enable |-----W=0,FCN=0,Seq=7----->|
      (no ACK)
          |-----W=1,FCN=6,Seq=8----->|
          |-----W=1,FCN=5,Seq=9----->|
          |-----W=1,FCN=4,Seq=10---->|
DL Enable |-----W=1,FCN=7,Seq=11---->| All fragments received
          | X--Compound ACK,W=1,C=1 -| C=1
DL Enable |-----W=1,FCN=7,Seq=13---->| RESEND ACK  (1)
          | X--Compound ACK,W=1,C=1 -| C=1
DL Enable |-----W=1,FCN=7,Seq=15---->| RESEND ACK  (2)
          | X--Compound ACK,W=1,C=1 -| C=1
DL Enable |-----W=1,FCN=7,Seq=17---->| RESEND ACK  (3)
          | X--Compound ACK,W=1,C=1 -| C=1
DL Enable |-----W=1,FCN=7,Seq=18---->| RESEND ACK  (4)
          | X--Compound ACK,W=1,C=1 -| C=1
DL Enable |-----W=1,FCN=7,Seq=19---->| RESEND ACK  (5)
          | X--Compound ACK,W=1,C=1 -| C=1
DL Enable |----Sender-Abort,Seq=20-->| exit with error condition
        (End)

]]></artwork></figure>

<t>Case Receiver-Abort</t>
]]></artwork>
        </figure>
        <t><strong>Case Receiver-Abort</strong></t>
        <t>The receiver may need to send a Receiver-Abort to stop the current communication.
This message can only be sent after a Downlink enable.</t> Enable.</t>
        <figure title="Uplink anchor="UL-ACKoE-RcvAbt">
          <name>Uplink ACK-on-Error Receiver-Abort" anchor="UL-ACKoE-RcvAbt"><artwork><![CDATA[ Receiver-Abort</name>
          <artwork name="" type="" align="center" alt=""><![CDATA[
        Sender                    Receiver
          |-----W=0,FCN=6,Seq=1----->|
          |-----W=0,FCN=5,Seq=2----->|
          |-----W=0,FCN=4,Seq=3----->|
          |-----W=0,FCN=3,Seq=4----->|
          |-----W=0,FCN=2,Seq=5----->|
          |-----W=0,FCN=1,Seq=6----->|
DL Enable |-----W=0,FCN=0,Seq=7----->|
          |<------  RECV ABORT ------| under-resourced
       (Error)

]]></artwork></figure>
]]></artwork>
        </figure>
      </section>
    </section>
    <section anchor="security-considerations" title="Security considerations"> numbered="true" toc="default">
      <name>Security Considerations</name>
      <t>The radio protocol authenticates and ensures the integrity of each message.
    This is achieved by using a unique device Device ID and an AES-128 based AES-128-based message authentication code,
ensuring that the message has been generated and sent by the device (see <xref target="sigfox-spec"/> target="sigfox-spec" format="default"/>, Section 3.8)  or network Network (see <xref target="sigfox-spec"/> target="sigfox-spec" format="default"/>, Section 4.3) with the ID claimed in the message <xref target="sigfox-spec"/>.</t> target="sigfox-spec" format="default"/>.</t>
      <t>Application data can may or may  not  be encrypted at the application layer or not, layer, depending on the criticality of the use case.
This flexibility allows providing a balance between cost and effort vs. versus risk.
AES-128 in counter mode is used for encryption.  Cryptographic keys are independent for each device. These keys are associated with the device ID Device ID, and separate integrity and
encryption keys are pre-provisioned.
    An encryption key is only provisioned if confidentiality is to be used (see <xref target="sigfox-spec"/> target="sigfox-spec" format="default"/>, Section 5.3. Note 5.3; note that further documentation is available at Sigfox upon request).</t>
      <t>The radio protocol has protections against replay attacks, and the cloud-based core network Network provides firewalling firewall protection against undesired incoming communications <xref target="sigfox-spec"/>.</t> target="sigfox-spec" format="default"/>.</t>
      <t>The previously described security mechanisms do not guarantee an E2E end-to-end security between the Device device SCHC C/D + F/R and the Network SCHC C/D + F/R: F/R; potential security threats described in <xref target="RFC8724"/> target="RFC8724" format="default"/> are applicable to the profile specified in this document.</t>
      <t>In some circumstances, sending device location information is
privacy-sensitive.
privacy sensitive. The Device Geolocation parameter provided by the
Network
   is optional, therefore optional; therefore, it can be omitted to protect this aspect of
the device privacy.</t>
<!--

<section anchor="security-considerations-for-header-compression" title="Security considerations for header compression">
<t>A malicious header compression could cause the reconstruction of a
wrong packet that does not match with the original one, such corruption
may be detected with end-to-end authentication and integrity mechanisms.
Denial of Service may be produced but its arise other security problems
that may be solved with or without header compression.</t>

</section>
<section anchor="security-considerations-for-fragmentation" title="Security considerations for fragmentation">
<t>This subsection describes potential attacks to LPWAN fragmentation
and suggests possible countermeasures.</t>

<t>A node can perform a buffer reservation attack by sending a first
fragment to a target.  Then, the receiver will reserve buffer space
for the IPv6 packet.  Other incoming fragmented packets will be
dropped while the reassembly buffer is occupied during the reassembly
timeout.  Once that timeout expires, the attacker can repeat the same
procedure, and iterate, thus creating a denial of service attack.
The (low) cost to mount this attack is linear with the number of
buffers at the target node.  However, the cost for an attacker can be
increased if individual fragments of multiple packets can be stored
in the reassembly buffer.  To further increase the attack cost, the
reassembly buffer can be split into fragment-sized buffer slots.
Once a packet is complete, it is processed normally.  If buffer
overload occurs, a receiver can discard packets based on the sender
behavior, which may help identify which fragments have been sent by
an attacker.</t>

<t>In another type of attack, the malicious node is required to have
overhearing capabilities.  If an attacker can overhear a fragment, it
can send a spoofed duplicate (e.g., with random payload) to the
destination. If the LPWAN technology does not support suitable protection
(e.g., source authentication and frame counters to prevent replay attacks),
a receiver cannot distinguish legitimate from spoofed fragments.  Therefore,
the original IPv6 packet will be considered corrupt and will be dropped.
To protect resource-constrained nodes from this attack, it has been proposed
to establish a binding among the fragments to be transmitted by a node,
by applying content-chaining to the different fragments, based on cryptographic
hash functionality.  The aim of this technique is to allow a receiver to
identify illegitimate fragments.</t>

<t>Further attacks may involve sending overlapped fragments (i.e.,
comprising some overlapping parts of the original IPv6 datagram).
Implementers should make sure that correct operation is not affected
by such event.</t>

<t>In Window mode – ACK on error, a malicious node may force a fragment sender to resend a fragment a number of times, with the aim to increase consumption of the fragment sender’s resources. To this end, the malicious node may repeatedly send a fake ACK to the fragment sender, with a bitmap that reports that one or more fragments have been lost. In order to mitigate this possible attack, MAX_FRAG_RETRIES may be set to a safe value which allows to limit the maximum damage of the attack to an acceptable extent. However, note that a high setting for MAX_FRAG_RETRIES benefits fragment delivery reliability, therefore the trade-off needs to be carefully considered.</t>

</section>
-->
</section>
    <section anchor="ianaconsiderations" title="IANA Considerations"> numbered="true" toc="default">
      <name>IANA Considerations</name>
      <t>This document has no IANA actions.</t>
    </section>

<section anchor="acknowledgements" title="Acknowledgements">

<t>Carles Gomez has been funded in part by the Spanish Government
   through the Jose Castillejo CAS15/00336 grant, the TEC2016-79988-P
   grant, and the PID2019-106808RA-I00 grant, and by Secretaria
   d'Universitats i Recerca del Departament d'Empresa i Coneixement de
   la Generalitat de Catalunya 2017 through grant SGR 376.</t>
<t>Sergio Aguilar has been funded by the ERDF and the Spanish Government through project TEC2016-79988-P and project PID2019-106808RA-I00, AEI/FEDER, EU.</t>
<t>Sandra Cespedes has been funded in part by the ANID Chile Project FONDECYT Regular 1201893 and Basal Project FB0008.</t>
<t>Diego Wistuba has been funded by the ANID Chile Project FONDECYT Regular 1201893.</t>
<t>The authors would like to thank Ana Minaburo, Clement Mannequin, Rafael Vidal, Julien Boite, Renaud Marty, and Antonis Platis for their useful comments and implementation design considerations.</t>

</section>
  </middle>
  <back>

  <!--
    <references title='Normative References'>

<reference  anchor="RFC4944" target='https://www.rfc-editor.org/info/rfc4944'>
<front>
<title>Transmission of IPv6 Packets over IEEE 802.15.4 Networks</title>
<author initials='G.' surname='Montenegro' fullname='G. Montenegro'><organization /></author>
<author initials='N.' surname='Kushalnagar' fullname='N. Kushalnagar'><organization /></author>
<author initials='J.' surname='Hui' fullname='J. Hui'><organization /></author>
<author initials='D.' surname='Culler' fullname='D. Culler'><organization /></author>
<date year='2007' month='September' />
<abstract><t>This document describes the frame format for transmission of IPv6 packets and the method of forming IPv6 link-local addresses and statelessly autoconfigured addresses on IEEE 802.15.4 networks. Additional specifications include a simple header compression scheme using shared context and provisions for packet delivery in IEEE 802.15.4 meshes.  [STANDARDS-TRACK]</t></abstract>
</front>
<seriesInfo name='RFC' value='4944'/>
<seriesInfo name='DOI' value='10.17487/RFC4944'/>
</reference>

<reference  anchor="RFC2460" target='https://www.rfc-editor.org/info/rfc2460'>
<front>
<title>Internet Protocol, Version 6 (IPv6) Specification</title>
<author initials='S.' surname='Deering' fullname='S. Deering'><organization /></author>
<author initials='R.' surname='Hinden' fullname='R. Hinden'><organization /></author>
<date year='1998' month='December' />
<abstract><t>This document specifies version 6 of the Internet Protocol (IPv6), also sometimes referred to as IP Next Generation or IPng.  [STANDARDS-TRACK]</t></abstract>
</front>
<seriesInfo name='RFC' value='2460'/>
<seriesInfo name='DOI' value='10.17487/RFC2460'/>
</reference>

<reference  anchor="RFC7136" target='https://www.rfc-editor.org/info/rfc7136'>
<front>
<title>Significance of IPv6 Interface Identifiers</title>
<author initials='B.' surname='Carpenter' fullname='B. Carpenter'><organization /></author>
<author initials='S.' surname='Jiang' fullname='S. Jiang'><organization /></author>
<date year='2014' month='February' />
<abstract><t>The IPv6 addressing architecture includes a unicast interface identifier that is used in the creation of many IPv6 addresses. Interface identifiers are formed by a variety of methods.  This document clarifies that the bits in an interface identifier have no meaning and that the entire identifier should be treated as an opaque value.  In particular, RFC 4291 defines a method by which the Universal and Group bits of an IEEE link-layer address are mapped into an IPv6 unicast interface identifier.  This document clarifies that those two bits are significant only in the process of deriving interface identifiers from an IEEE link-layer address, and it updates RFC 4291 accordingly.</t></abstract>
</front>
<seriesInfo name='RFC' value='7136'/>
<seriesInfo name='DOI' value='10.17487/RFC7136'/>
</reference>

<reference  anchor="RFC5795" target='https://www.rfc-editor.org/info/rfc5795'>
<front>
<title>The RObust Header Compression (ROHC) Framework</title>
<author initials='K.' surname='Sandlund' fullname='K. Sandlund'><organization /></author>
<author initials='G.' surname='Pelletier' fullname='G. Pelletier'><organization /></author>
<author initials='L-E.' surname='Jonsson' fullname='L-E. Jonsson'><organization /></author>
<date year='2010' month='March' />
<abstract><t>The Robust Header Compression (ROHC) protocol provides an efficient, flexible, and future-proof header compression concept.  It is designed to operate efficiently and robustly over various link technologies with different characteristics.</t><t>The ROHC framework, along with a set of compression profiles, was initially defined in RFC 3095.  To improve and simplify the ROHC specifications, this document explicitly defines the ROHC framework and the profile for uncompressed separately.  More specifically, the definition of the framework does not modify or update the definition of the framework specified by RFC 3095.</t><t>This specification obsoletes RFC 4995.  It fixes one interoperability issue that was erroneously introduced in RFC 4995, and adds some minor clarifications.  [STANDARDS-TRACK]</t></abstract>
</front>
<seriesInfo name='RFC' value='5795'/>
<seriesInfo name='DOI' value='10.17487/RFC5795'/>
</reference>

    </references>

-->

   <references title='Normative References'>

<?rfc include='reference.RFC.2119'?>
<?rfc include='reference.RFC.8174'?>

<!--
<reference anchor="I-D.ietf-lpwan-overview">
<front>
<title>LPWAN Overview</title>

<author initials='S Ed' surname='Farrell' fullname='Stephen Farrell'>
    <organization />
</author>

<date month='May' year='2018' />

<abstract><t>Low Power Wide Area Networks (LPWAN) are wireless technologies with characteristics such as large coverage areas, low bandwidth, possibly very small packet and application layer data sizes and long battery life operation.  This memo is an informational overview of the set of LPWAN technologies being considered in the IETF and of the gaps that exist between the needs of those technologies and the goal of running IP in LPWANs.</t></abstract>

</front>

<seriesInfo name='Internet-Draft' value='draft-ietf-lpwan-overview-07' />
<format type='TXT'
        target='http://www.ietf.org/internet-drafts/draft-ietf-lpwan-overview-07.txt' />
</reference>
-->

<?rfc include='reference.RFC.8724'?>
<!--

<displayreference target="I-D.ietf-core-comi" to="CORE-COMI"/>

   <references>
      <name>References</name>
      <references>
        <name>Normative References</name>
        <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"/>
	<xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8724.xml"/>

<reference anchor="I-D.ietf-lpwan-ipv6-static-context-hc"> anchor='RFC9441' target='https://www.rfc-editor.org/info/rfc9441'>
<front>
<title>LPWAN Static Context Header Compression (SCHC) and fragmentation for IPv6 and UDP</title>

<author initials='A' surname='Minaburo' fullname='Ana Minaburo'>
    <organization />
</author>
<author initials='L' surname='Toutain' fullname='Laurent Toutain'>
    <organization />
</author>
<author initials='C' surname='Gomez' fullname='Carles Gomez'>
    <organization />
</author>
<author initials='D' surname='Barthel' fullname='Dominique Barthel'>
    <organization />
</author>
<author initials='JC' surname='Zuniga' fullname='Juan Carlos Zuniga'>
    <organization />
</author>

<date month='October' day='22' year='2018' />

<abstract><t>   This document describes a header compression scheme and fragmentation
   functionality for very low bandwidth networks.  These techniques are
   specially tailored for LPWAN (Low Power Wide Area Network) networks.

   The Static
<title>Static Context Header Compression (SCHC) offers a great level of
   flexibility when processing the header fields.  SCHC compression is
   based on a common static context stored in a LPWAN device and in the
   network.  Static context means that the stored information does not
   change during the packet transmission.  The context describes the
   field values and keeps information that will not be transmitted
   through the constrained network.

   SCHC must be used for LPWAN networks because it avoids complex
   resynchronization mechanisms, which are incompatible with LPWAN
   characteristics.  And also because in most cases, IPv6/UDP headers
   are reduced to a small identifier called RuleID.  Eventhough
   sometimes, a SCHC compressed packet will not fit in one L2 PDU, and
   the SCHC fragmentation protocol will be used.  The SCHC fragmentation
   and reassembly mechanism is used in two situations: for SCHC-
   compressed packets that still exceed the L2 PDU size; and for the
   case where the SCHC compression cannot be performed.

   This document describes the SCHC compression/decompression framework
   and applies it to IPv6/UDP headers.  This document also specifies a
   fragmentation and reassembly mechanism that is used to support the
   IPv6 MTU requirement over LPWAN technologies.  Fragmentation is
   mandatory for IPv6 datagrams that, after SCHC compression or when it
   has not been possible to apply such compression, still exceed the L2
   maximum payload size.  Similar solutions for other protocols such as
   CoAP will be described in separate documents.</t></abstract>

</front>

<seriesInfo name='Internet-Draft' value='draft-ietf-lpwan-ipv6-static-context-hc-17' />
<format type='TXT'
        target='http://www.ietf.org/internet-drafts/draft-ietf-lpwan-ipv6-static-context-hc-16.txt' />
</reference>
-->

<reference anchor="I-D.ietf-lpwan-schc-compound-ack">
<front>
<title>SCHC Compound ACK</title> Acknowledgement (ACK)</title>
<author initials='JC' surname='Zuniga' fullname='Juan Carlos Zuniga'>
    <organization /> initials="JC." surname="Zúñiga" fullname="Juan-Carlos Zúñiga">
<organization>Cisco</organization>
</author>
<author initials='C' surname='Gomez' fullname='Carles Gomez'>
    <organization /> initials="C." surname="Gomez" fullname="Carles Gomez">
<organization>Universitat Politecnica de Catalunya</organization>
</author>
<author initials='S' surname='Aguilar' fullname='Sergio Aguilar'>
    <organization /> initials="S." surname="Aguilar" fullname="Sergio Aguilar">
<organization>Universitat Politecnica de Catalunya</organization>
</author>
<author initials='L' surname='Toutain' fullname='Laurent Toutain'>
    <organization /> initials="L." surname="Toutain" fullname="Laurent Toutain">
<organization>IMT-Atlantique</organization>
</author>
<author initials='S' surname='Cespedes' fullname='Sandra Cespedes'>
    <organization /> initials="S." surname="Céspedes" fullname="Sandra Céspedes">
<organization>Concordia University</organization>
</author>
<author initials='D' surname='Wistuba' fullname='Diego Wistuba'>
    <organization /> initials="D." surname="Wistuba" fullname="Diego S. Wistuba La Torre">
<organization>NIC Labs, Universidad de Chile</organization>
</author>
<date month='January' year='2023' />

<abstract><t>The present document describes an extension to the SCHC (Static Header Compression and Fragmentation) protocol. It defines a SCHC Compound ACK message
format, which is intended to reduce the number of Downlink transmissions (i.e., SCHC ACKs) by accumulating bitmaps of several windows in a single SCHC message
(i.e., the SCHC Compound ACK). </t>
<t>The message format is generic, and can be used for instance by any the four LWPAN technologies defined in <xref target="RFC8376"/>, being Sigfox, LoRaWAN, NB-IoT and IEEE 802.15.4w. </t></abstract> month="July" year="2023"/>
</front>
<seriesInfo name='Internet-Draft' value='draft-ietf-lpwan-schc-compound-ack-10' />
<format type='TXT'
        target='httpsout-://www.ietf.org/internet-drafts/draft-ietf-lpwan-schc-compound-ack-10.txt' /> name="RFC" value="9441"/>
<seriesInfo name="DOI" value="10.17487/RFC9441"/>
</reference>

        <reference anchor="sigfox-spec" target="https://build.sigfox.com/sigfox-device-radio-specifications">
          <front>
            <title>Sigfox Device Radio Specifications</title>
    <author initials="" surname="Sigfox" fullname="Sigfox">
      <organization></organization>
            <author>
              <organization>Sigfox</organization>
            </author>
    <date />
          </front>
        </reference>
      </references>

	<references title='Informative References'>

<?rfc include='reference.RFC.8376'?>
      <references>
        <name>Informative References</name>

        <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8376.xml"/>

        <reference anchor="sigfox-docs" target="https://support.sigfox.com/docs">
          <front>
            <title>Sigfox Documentation</title>
    <author initials="" surname="Sigfox" fullname="Sigfox">
      <organization></organization>
            <author>
              <organization>Sigfox</organization>
            </author>
    <date />
          </front>
        </reference>

        <reference anchor="sigfox-callbacks" target="https://support.sigfox.com/docs/callbacks-documentation">
          <front>
            <title>Sigfox Callbacks</title>
    <author initials="" surname="Sigfox" fullname="Sigfox">
      <organization></organization>
            <author>
              <organization>Sigfox</organization>
            </author>
    <date />
          </front>
        </reference>

<reference anchor='I-D.ietf-core-comi'> anchor="I-D.ietf-core-comi" target="https://datatracker.ietf.org/doc/html/draft-ietf-core-comi-12">
<front>
<title>CoAP Management Interface (CORECONF)</title>
<author fullname='Michel Veillette'> initials="M." surname="Veillette" fullname="Michel Veillette" role="editor">
<organization>Trilliant Networks Inc.</organization>
</author>
<author fullname='Peter initials="P." surname="van der Stok" fullname="Peter van der Stok'> Stok" role="editor">
<organization>consultant</organization>
</author>
<author fullname='Alexander Pelov'> initials="A." surname="Pelov" fullname="Alexander Pelov">
<organization>Acklio</organization>
</author>
<author fullname='Andy Bierman'> initials="A." surname="Bierman" fullname="Andy Bierman">
<organization>YumaWorks</organization>
</author>
<author fullname='Ivaylo Petrov'>
	 <organization>Acklio</organization> initials="C." surname="Bormann" fullname="Carsten Bormann" role="editor">
<organization>Universität Bremen TZI</organization>
</author>
<date day='17' month='January' year='2021'/>
      <abstract>
	 <t>   This document describes a network management interface for
   constrained devices and networks, called CoAP Management Interface
   (CORECONF).  The Constrained Application Protocol (CoAP) is used to
   access datastore and data node resources specified in YANG, or SMIv2
   converted to YANG.  CORECONF uses the YANG to CBOR mapping and
   converts YANG identifier strings to numeric identifiers for payload
   size reduction.  CORECONF extends the set of YANG based protocols,
   NETCONF and RESTCONF, with the capability to manage constrained
   devices and networks.

	 </t>
      </abstract> month="March" day="13" year="2023"/>
</front>
<seriesInfo name='Internet-Draft' value='draft-ietf-core-comi-11'/>
   <format target='https://www.ietf.org/archive/id/draft-ietf-core-comi-11.txt' type='TXT'/>
</reference>

<reference anchor='RFC7252' target='https://www.rfc-editor.org/info/rfc7252'>
<front>
<title>The Constrained Application Protocol (CoAP)</title>
<author fullname='Z. Shelby' initials='Z.' surname='Shelby'><organization/></author>
<author fullname='K. Hartke' initials='K.' surname='Hartke'><organization/></author>
<author fullname='C. Bormann' initials='C.' surname='Bormann'><organization/></author>
<date month='June' year='2014'/>
<abstract><t>The Constrained Application Protocol (CoAP) is a specialized web transfer protocol for use with constrained nodes and constrained (e.g., low-power, lossy) networks.  The nodes often have 8-bit microcontrollers with small amounts of ROM and RAM, while constrained networks such as IPv6 over Low-Power Wireless Personal Area Networks (6LoWPANs) often have high packet error rates and a typical throughput of 10s of kbit/s.  The protocol is designed for machine- to-machine (M2M) applications such as smart energy and building automation.</t><t>CoAP provides a request/response interaction model between application endpoints, supports built-in discovery of services and resources, and includes key concepts of the Web such as URIs and Internet media types.  CoAP is designed to easily interface with HTTP for integration with the Web while meeting specialized requirements such as multicast support, very low overhead, and simplicity for constrained environments.</t></abstract>
</front>
<seriesInfo name='RFC' value='7252'/>
<seriesInfo name='DOI' value='10.17487/RFC7252'/>
</reference>

<reference anchor='RFC6241' target='https://www.rfc-editor.org/info/rfc6241'>
<front>
<title>Network Configuration Protocol (NETCONF)</title>
<author fullname='R. Enns' initials='R.' role='editor' surname='Enns'><organization/></author>
<author fullname='M. Bjorklund' initials='M.' role='editor' surname='Bjorklund'><organization/></author>
<author fullname='J. Schoenwaelder' initials='J.' role='editor' surname='Schoenwaelder'><organization/></author>
<author fullname='A. Bierman' initials='A.' role='editor' surname='Bierman'><organization/></author>
<date month='June' year='2011'/>
<abstract><t>The Network Configuration Protocol (NETCONF) defined in this document provides mechanisms to install, manipulate, and delete the configuration of network devices.  It uses an Extensible Markup Language (XML)-based data encoding for the configuration data as well as the protocol messages.  The NETCONF protocol operations are realized as remote procedure calls (RPCs).  This document obsoletes RFC 4741.  [STANDARDS-TRACK]</t></abstract>
</front>
<seriesInfo name='RFC' value='6241'/>
<seriesInfo name='DOI' value='10.17487/RFC6241'/>
</reference>

<reference anchor='RFC8040' target='https://www.rfc-editor.org/info/rfc8040'>
<front>
<title>RESTCONF Protocol</title>
<author fullname='A. Bierman' initials='A.' surname='Bierman'><organization/></author>
<author fullname='M. Bjorklund' initials='M.' surname='Bjorklund'><organization/></author>
<author fullname='K. Watsen' initials='K.' surname='Watsen'><organization/></author>
<date month='January' year='2017'/>
<abstract><t>This document describes an HTTP-based protocol that provides a programmatic interface for accessing data defined in YANG, using the datastore concepts defined in the Network Configuration Protocol (NETCONF).</t></abstract>
</front>
<seriesInfo name='RFC' value='8040'/>
<seriesInfo name='DOI' value='10.17487/RFC8040'/>
</reference>

<reference anchor='RFC8259' target='https://www.rfc-editor.org/info/rfc8259'>
<front>
<title>The JavaScript Object Notation (JSON) Data Interchange Format</title>
<author fullname='T. Bray' initials='T.' role='editor' surname='Bray'><organization/></author>
<date month='December' year='2017'/>
<abstract><t>JavaScript Object Notation (JSON) is a lightweight, text-based, language-independent data interchange format.  It was derived from the ECMAScript Programming Language Standard.  JSON defines a small set of formatting rules for the portable representation of structured data.</t><t>This document removes inconsistencies with other specifications of JSON, repairs specification errors, and offers experience-based interoperability guidance.</t></abstract>
</front>
<seriesInfo name='STD' value='90'/>
<seriesInfo name='RFC' value='8259'/>
<seriesInfo name='DOI' value='10.17487/RFC8259'/>
</reference>

<reference anchor='RFC8949' target='https://www.rfc-editor.org/info/rfc8949'>
<front>
<title>Concise Binary Object Representation (CBOR)</title>
<author fullname='C. Bormann' initials='C.' surname='Bormann'><organization/></author>
<author fullname='P. Hoffman' initials='P.' surname='Hoffman'><organization/></author>
<date month='December' year='2020'/>
<abstract><t>The Concise Binary Object Representation (CBOR) is a data format whose design goals include the possibility of extremely small code size, fairly small message size, and extensibility without the need for version negotiation. These design goals make it different from earlier binary serializations such as ASN.1 and MessagePack.</t><t>This document obsoletes RFC 7049, providing editorial improvements, new details, and errata fixes while keeping full compatibility with the interchange format of RFC 7049.  It does not create a new version of the format.</t></abstract>
</front>
<seriesInfo name='STD' value='94'/>
<seriesInfo name='RFC' value='8949'/>
<seriesInfo name='DOI' value='10.17487/RFC8949'/> name="Internet-Draft" value="draft-ietf-core-comi-12"/>
</reference>

        <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.7252.xml"/>
        <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.6241.xml"/>
        <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8040.xml"/>
        <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8259.xml"/>
        <xi:include href="https://bib.ietf.org/public/rfc/bibxml/reference.RFC.8949.xml"/>
      </references>
    </references>

<!--
    <section anchor="note" title="Note">
<t>Carles Gomez anchor="acknowledgements" numbered="false" toc="default">
      <name>Acknowledgements</name>
      <t><contact fullname="Carles Gomez"/> has been funded in part by the Spanish Government
(Ministerio de Educacion, Cultura y Deporte)
   through the Jose
Castillejo TEC2016-79988-P grant and the PID2019-106808RA-I00 grant
   (funded by MCIN / AEI / 10.13039/501100011033) and by Secretaria
   d'Universitats i Recerca del Departament d'Empresa i Coneixement de
   la Generalitat de Catalunya through 2017 grant CAS15/00336, SGR 376 and 2021 grant SGR 00330.</t>
      <t><contact fullname="Sergio Aguilar"/> has been funded by the ERDF and the Spanish Government through project TEC2016-79988-P.  Part of his contribution to this work TEC2016-79988-P and project PID2019-106808RA-I00, AEI/FEDER, EU (funded by MCIN / AEI / 10.13039/501100011033).</t>
      <t><contact fullname="Sandra Cespedes"/> has been carried out during his stay as a visiting scholar at funded in part by the
Computer Laboratory of ANID Chile Project FONDECYT Regular 1201893 and Basal Project FB0008.</t>
      <t><contact fullname="Diego Wistuba"/> has been funded by the University of Cambridge.</t> ANID Chile Project FONDECYT Regular 1201893.</t>
      <t>The authors would like to thank <contact fullname="Ana Minaburo"/>, <contact fullname="Clement Mannequin"/>, <contact fullname="Rafael Vidal"/>, <contact fullname="Julien Boite"/>, <contact fullname="Renaud Marty"/>, and <contact fullname="Antonis Platis"/> for their useful comments and implementation design considerations.</t>
    </section>
-->
  </back>

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