ECRIT | R. Gellens |
Internet-Draft | Core Technology Consulting |
Intended status: Standards Track | H. Tschofenig |
Expires: July 20, 2017 | Individual |
January 16, 2017 |
Next-Generation Pan-European eCall
draft-ietf-ecrit-ecall-23.txt
This document describes how to use IP-based emergency services mechanisms to support the next generation of the pan European in-vehicle emergency call service defined under the eSafety initiative of the European Commission (generally referred to as "eCall"). eCall is a standardized and mandated system for a special form of emergency calls placed by vehicles, providing real-time communications and an integrated set of related data.
This document also registers MIME media types and an Emergency Call Additional Data Block for the eCall vehicle data and metadata/control data, and an INFO package to enable carrying this data in SIP INFO requests.
Although this specification is designed to meet the requirements of European next-generation eCall, it is specified generically such that the technology can be re-used or extended to suit requirements across jurisdictions.
This Internet-Draft is submitted in full conformance with the provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering Task Force (IETF). Note that other groups may also distribute working documents as Internet-Drafts. The list of current Internet-Drafts is at http://datatracker.ietf.org/drafts/current/.
Internet-Drafts are draft documents valid for a maximum of six months and may be updated, replaced, or obsoleted by other documents at any time. It is inappropriate to use Internet-Drafts as reference material or to cite them other than as "work in progress."
This Internet-Draft will expire on July 20, 2017.
Copyright (c) 2017 IETF Trust and the persons identified as the document authors. All rights reserved.
This document is subject to BCP 78 and the IETF Trust's Legal Provisions Relating to IETF Documents (http://trustee.ietf.org/license-info) in effect on the date of publication of this document. Please review these documents carefully, as they describe your rights and restrictions with respect to this document. Code Components extracted from this document must include Simplified BSD License text as described in Section 4.e of the Trust Legal Provisions and are provided without warranty as described in the Simplified BSD License.
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in [RFC2119].
This document re-uses terminology defined in Section 3 of [RFC5012].
Additionally, we use the following abbreviations:
Term | Expansion |
---|---|
3GPP | 3rd Generation Partnership Project |
CEN | European Committee for Standardization |
EENA | European Emergency Number Association |
ESInet | Emergency Services IP network |
IMS | IP Multimedia Subsystem |
IVS | In-Vehicle System |
MNO | Mobile Network Operator |
MSD | Minimum Set of Data |
PSAP | Public Safety Answering Point |
This document is focused on the signaling, data exchange, and protocol needs of next-generation eCall (NG-eCall, also referred to as packet-switched eCall or all-IP eCall) within the SIP framework for emergency calls (as described in [RFC6443] and [RFC6881]). eCall itself is specified by 3GPP (3rd Generation Partnership Project) and CEN (European Committee for Standardization) and these specifications include far greater scope than is covered here.
The eCall service operates over cellular wireless communication, but this document does not address cellular-specific details, nor client domain selection (e.g., circuit-switched versus packet-switched). All such aspects are the purview of their respective standards bodies. The scope of this document is limited to eCall operating within a SIP-based environment (e.g., 3GPP IMS Emergency Calling [TS23.167]).
Although this specification is designed to meet the requirements of pan-European next-generation eCall, it is specified generically such that the technology can be re-used or extended to suit requirements across jurisdictions (see, e.g., [I-D.ietf-ecrit-car-crash]), and extension points are provided to facilitate this.
Note that vehicles designed for multiple regions might need to support eCall and other Advanced Automatic Crash Notification (AACN) systems (such as described in [I-D.ietf-ecrit-car-crash]), but this is out of scope of this document.
Emergency calls made from vehicles (e.g., in the event of a crash) assist in significantly reducing road deaths and injuries by allowing emergency services to be aware of the incident, the state of the vehicle, the location of the vehicle, and to have a voice channel with the vehicle occupants. This enables a quick and appropriate response.
The European Commission initiative of eCall was conceived in the late 1990s, and has evolved to a European Parliament decision requiring the implementation of a compliant in-vehicle system (IVS) in new vehicles and the deployment of eCall in the European Member States in the very near future. Other regions are developing eCall-compatible systems.
The pan-European eCall system is a standardized and mandated mechanism for emergency calls by vehicles, providing a voice channel and transmission of data. eCall establishes procedures for such calls to be placed by in-vehicle systems, recognized and processed by the mobile network, and routed to a specialized PSAP where the vehicle data is available to assist the call taker in assessing and responding to the situation. eCall provides a standard set of vehicle, sensor (e.g., crash related), and location data.
An eCall can be either user-initiated or automatically triggered. Automatically triggered eCalls indicate a car crash or some other serious incident. Manually triggered eCalls might be reports of witnessed crashes or serious hazards. PSAPs might apply specific operational handling to manual and automatic eCalls.
Legacy eCall is standardized (by 3GPP [SDO-3GPP] and CEN [CEN]) as a 3GPP circuit-switched call over GSM (2G) or UMTS (3G). Flags in the call setup mark the call as an eCall, and further indicate if the call was automatically or manually triggered. The call is routed to an eCall-capable PSAP, a voice channel is established between the vehicle and the PSAP, and an eCall in-band modem is used to carry a defined set of vehicle, sensor (e.g., crash related), and location data (the Minimum Set of Data or MSD) within the voice channel. The same in-band mechanism is used for the PSAP to acknowledge successful receipt of the MSD, and to request the vehicle to send a new MSD (e.g., to check if the state of or location of the vehicle or its occupants has changed). NG-eCall moves from circuit switched to all-IP, and carries the vehicle data and eCall signaling as additional data carried with the call. This document describes how IETF mechanisms for IP-based emergency calls (including [RFC6443] and [RFC7852]) are used to provide the signaling and data exchange of the next generation of pan-European eCall.
The European Telecommunications Standards Institute (ETSI) [SDO-ETSI] has published a Technical Report titled "Mobile Standards Group (MSG); eCall for VoIP" [MSG_TR] that presents findings and recommendations regarding support for eCall in an all-IP environment. The recommendations include the use of 3GPP IMS emergency calling with additional elements identifying the call as an eCall and as carrying eCall data and with mechanisms for carrying the data and eCall signaling. 3GPP IMS emergency services support multimedia, providing the ability to carry voice, text, and video. This capability is referred to within 3GPP as Multimedia Emergency Services (MMES).
A transition period will exist during which time the various entities involved in initiating and handling an eCall might support next-generation eCall, legacy eCall, or both. The issues of migration and co-existence during the transition period are outside the scope of this document.
This document indicates how to use IP-based emergency services mechanisms to support next-generation eCall.
This document also registers MIME media types and an Emergency Call Additional Data Block for the eCall vehicle data (MSD) and metadata/control data, and an INFO package to enable carrying this data in SIP INFO requests.
The MSD is carried in the MIME type 'application/emergencyCallData.eCall.MSD+per' and the metadata/control block is carried in the MIME type 'application/emergencyCallData.control+xml' (both of which are registered in Section 14). An INFO package is defined (in Section 14.10) to enable these MIME types to be carried in SIP INFO requests, per [RFC6086].
eCall requirements are specified by CEN in [EN_16072] and by 3GPP in [TS22.101] clauses 10.7 and A.27 and [TS24.229] section 4.7.6. Requirements specific to vehicle data are contained in EN 15722 [msd].
Pan-European eCall provides a standardized and mandated set of vehicle related data (including VIN, vehicle type, propulsion type, current and optionally previous location coordinates, and number of occupants), known as the Minimum Set of Data (MSD). The European Committee for Standardization (CEN) has specified this data in EN 15722 [msd], along with both ASN.1 and XML encodings. Both circuit-switched eCall and this document use the ASN.1 PER encoding, which is specified in Annex A of EN 15722 [msd] (the XML encoding specified in Annex C is not used in this document, per 3GPP [SDO-3GPP]).
This document registers the 'application/emergencyCallData.eCall.MSD+per' MIME media type to enable the MSD to be carried in SIP. As an ASN.1 PER encoded object, the data is binary and transported using binary content transfer encoding within SIP messages. This document also adds the 'eCall.MSD' entry to the Emergency Call Additional Data Types registry to enable the MSD to be recognized as such in a SIP-based eCall emergency call. (See [RFC7852] for more information about the registry and how it is used.)
See Section 6 for a discussion of how the MSD vehicle data is conveyed in an NG-eCall.
[RFC7852] establishes a general mechanism for conveying blocks of data within a SIP emergency call. This document makes use of that mechanism to include vehicle data (the MSD, see Section 5) and/or metadata/control information (see Section 9) within SIP messages. This document also registers an INFO package (in Section 14.10) to enable eCall related data blocks to be carried in SIP INFO requests (per [RFC6086], new INFO usages require the definition of an INFO package).
Note that if other data sets need to be transmitted in the future, the appropriate signalling mechanism for such data needs to be evaluated, including factors such as the size and frequency of such data.
An In-Vehicle System (IVS) transmits an MSD (see Section 5) by encoding it per Annex A of EN 15722 [msd], and including it as a MIME body part within a SIP message per [RFC7852]. The body part is identified by its MIME media type ('application/emergencyCallData.eCall.MSD+per') in the Content-Type header field of the body part. The body part is assigned a unique identifier which is listed in a Content-ID header field in the body part. The SIP message is marked as containing the MSD by adding (or appending to) a Call-Info header field at the top level of the SIP message. This Call-Info header field contains a CID URL referencing the body part's unique identifier, and a 'purpose' parameter identifying the data as the eCall MSD per the Emergency Call Additional Data Types registry entry; the 'purpose' parameter's value is 'emergencyCallData.eCall.MSD'. Per [RFC6086], an MSD is carried in a SIP INFO request by using the INFO package defined in Section 14.10.
A PSAP or IVS transmits a metadata/control object (see Section 9) by encoding it per the description in this document, and including it within a SIP message as a MIME body part per [RFC7852]. The body part is identified by its MIME media type ('application/emergencyCallData.control+xml') in the Content-Type header field of the body part. The body part is assigned a unique identifier which is listed in a Content-ID header field in the body part. The SIP message is marked as containing the metadata/control object by adding (or appending to) a Call-Info header field at the top level of the SIP message. This Call-Info header field contains a CID URL referencing the body part's unique identifier, and a 'purpose' parameter identifying the data as an eCall metadata/control block per the Emergency Call Additional Data Types registry entry; the 'purpose' parameter's value is 'emergencyCallData.control'. Per [RFC6086], a metadata/control object is carried in a SIP INFO request by using the INFO package defined in Section 14.10.
An MSD or a metadata/control block is always enclosed in a multipart (normally multipart/mixed) body part (even if it would otherwise be the only body part in the SIP message), since as of the date of this document, the use of Content-ID as a SIP header field is not defined (while it is defined for use as a MIME header field).
A body part containing an MSD or metadata/control object has a Content-Disposition header field value containing "By-Reference".
An In-Vehicle System (IVS) initiating an NG-eCall includes an MSD as a body part within the initial INVITE, and optionally also includes a metadata/control object informing the PSAP of its capabilities as another body part. The MSD body part (and metadata/control and PIDF-LO body parts if included) have a Content-Disposition header field with the value "By-Reference; handling=optional". Specifying "handling=optional" prevents the SIP INVITE request from being rejected if it is processed by a legacy element (e.g., a gateway between SIP and circuit-switched environments) that does not understand the MSD (or metadata/control object or PIDF-LO). The PSAP creates a metadata/control object acknowledging receipt of the MSD and includes it as a body part within the SIP final response to the SIP INVITE request per [RFC7852]. A metadata/control object is not included in provisional (e.g., 180) responses.
A PSAP is able to reject a call while indicating that it is aware of the situation by including a metadata/control object acknowledging the MSD and containing "received=true" within a final response using SIP response code 600 (Busy Everywhere), 486 (Busy Here), or 603 (Decline), per [RFC7852].
If the IVS receives an acknowledgment for an MSD containing "received=false", this indicates that the PSAP was unable to properly decode or process the MSD. The IVS action is not defined (e.g., it might only log an error). Since the PSAP is able to request an updated MSD during the call, if an initial MSD is unsatisfactory in any way, the PSAP can choose to request another one.
A PSAP can request that the vehicle send an updated MSD during a call (e.g., upon manual request of the PSAP call taker who suspects vehicle state may have changed.) To do so, the PSAP creates a metadata/control object requesting an MSD and includes it within a SIP INFO request sent within the dialog. The IVS then includes an updated MSD within a SIP INFO request and sends it within the dialog. If the IVS is unable to send an MSD, it instead sends a metadata/control object acknowledging the request with the 'success' parameter set to 'false' and a 'reason' parameter (and optionally a 'details' parameter) indicating why the request could not be accomplished. Per [RFC6086], metadata/control objects and MSDs are sent using the INFO package defined in Section 14.10. In addition, to align with how an MSD or metadata/control block is transmitted in a SIP message other than an INFO request, a Call-Info header field is included in the SIP INFO request to reference the MSD or metadata/control block per [RFC7852]. See Section 14.10 for information about the use of SIP INFO requests to carry data within an eCall.
The IVS is not expected to send an unsolicited MSD after the initial INVITE.
This document does not mandate support for the data blocks defined in [RFC7852].
In circuit-switched eCall, the IVS places a special form of a 112 emergency call which carries an eCall flag (indicating that the call is an eCall and also if the call was manually or automatically triggered); the mobile network operator (MNO) recognizes the eCall flag and routes the call to an eCall-capable PSAP; vehicle data is transmitted to the PSAP via the eCall in-band modem (in the voice channel).
///----\\\ 112 voice call with eCall flag +------+ ||| IVS |||---------------------------------------->+ PSAP | \\\----/// vehicle data via eCall in-band modem +------+
Figure 1: circuit-switched eCall
For NG-eCall, the IVS establishes an emergency call using a Request-URI indicating a manual or automatic eCall; the MNO (or ESInet) recognizes the eCall URN and routes the call to an NG-eCall capable PSAP; the PSAP interprets the vehicle data sent with the call and makes it available to the call taker.
///----\\\ IMS emergency call with eCall URN +------+ IVS ----------------------------------------->+ PSAP | \\\----/// vehicle data included in call setup +------+
Figure 2: NG-eCall
See Section 6 for information on how the MSD is transported within an NG-eCall.
This document registers new service URN children within the "sos" subservice. These URNs provide the mechanism by which an eCall is identified, and differentiate between manually and automatically triggered eCalls (which might be subject to different treatment, depending on policy). The two service URNs are: urn:service:sos.ecall.automatic and urn:service:sos.ecall.manual, which requests resources associated with an emergency call placed by an in-vehicle system, carrying a standardized set of data related to the vehicle and incident.
Call routing is outside the scope of this document.
eCall requires the ability to place test calls (see [TS22.101] clause 10.7 and [EN_16062] clause 7.2.2). These are calls that are recognized and treated to some extent as eCalls but are not given emergency call treatment and are not handled by call takers. The specific handling of test eCalls is not itself standardized; typically, the test call facility allows the IVS or user to verify that an eCall can be successfully established with voice communication. The IVS might also be able to verify that the MSD was successfully received.
A service URN starting with "test." indicates a test call. For eCall, "urn:service:test.sos.ecall" indicates such a test feature. This functionality is defined in [RFC6881].
This document registers "urn:service:test.sos.ecall" for eCall test calls.
The circuit switched eCall test call facility is a non-emergency number so does not get treated as an emergency call. For NG-eCall, MNOs, emergency authorities, and PSAPs can determine how to treat a vehicle call requesting the "test" service URN so that the desired functionality is tested, but this is outside the scope of this document.
eCall requires the ability for the PSAP to acknowledge successful receipt of an MSD sent by the IVS, and for the PSAP to request that the IVS send an MSD (e.g., the call taker can initiate a request for a new MSD to see if there have been changes in the vehicle's state, e.g., location, direction, number of fastened seatbelts).
This document defines a block of metadata/control data as an XML structure containing elements used for eCall and other related emergency call systems and extension points. (This metadata/control block is in effect a high-level protocol between the PSAP and IVS.) When the PSAP sends a metadata/control block in response to data sent by the IVS in a SIP request other than INFO (e.g., the MSD in the initial INVITE), the metadata/control block is sent in the SIP response to that request (e.g., the response to the INVITE request). When the PSAP sends a control block in other circumstances (e.g., mid-call), the control block is transmitted from the PSAP to the IVS in a SIP INFO request within the established dialog. The IVS sends the requested data (the MSD) in a new SIP INFO request (per [RFC6086]). This mechanism flexibly allows the PSAP to send eCall-specific data to the IVS and the IVS to respond. SIP INFO requests are sent using an appropriate SIP INFO Package. See Section 6 for more information on sending a metadata/control block within a SIP message. See Section 14.10 for information about the use of SIP INFO requests to carry data within an eCall.
When the IVS includes an unsolicited MSD in a SIP request (e.g., the initial INVITE), the PSAP sends a metadata/control block indicating successful/unsuccessful receipt of the MSD in the SIP response to the request. This also informs the IVS that an NG-eCall is in operation. If the IVS receives a SIP final response without the metadata/control block, it indicates that the SIP dialog is not an NG-eCall (e.g., some part of the call is being handled as a legacy call). When the IVS sends a solicited MSD (e.g., in a SIP INFO request sent following receipt of a SIP INFO request containing a metadata/control block requesting an MSD), the PSAP does not send a metadata/control block indicating successful or unsuccessful receipt of the MSD. (Normal SIP retransmission handles non-receipt of requested data; note that, per [RFC6086], a 200 OK response to a SIP INFO request indicates only that the receiver has successfully received and accepted the SIP INFO request, it says nothing about the acceptability of the payload.) If the IVS receives a request to send an MSD but it is unable to do so for any reason, the IVS sends a metadata/control object acknowledging the request and containing "success=false" and "reason" set to an appropriate code.
This provides flexibility to handle various circumstances. For example, if a PSAP is unable to accept an eCall (e.g., due to overload or too many calls from the same location), it can reject the INVITE. Since a metadata/control object is also included in the SIP response that rejects the call, the IVS knows if the PSAP received the MSD, and can inform the vehicle occupants that the PSAP successfully received the vehicle location and information but can't talk to the occupants at that time. Especially for SIP response codes that indicate an inability to conduct a call (as opposed to a technical inability to process the request), the IVS can also determine that the call was successful on a technical level (e.g., not helpful to retry as circuit-switched). (Note that there could be edge cases where the PSAP response is not received by the IVS, e.g., if an intermediary sends a CANCEL, and an error response is forwarded towards the IVS before the error response from the PSAP is received, the response will be dropped, but these are unlikely to occur here.)
The metadata/control block is carried in the MIME type 'application/emergencyCallData.control+xml'.
The metadata/control block is designed for use with pan-European eCall and also eCall-like systems (i.e., in other regions), and has extension points. Note that eCall-like systems might define their own vehicle data blocks, and so might need to register a new INFO package to accommodate the new data MIME media type and the metadata/control object.
The control block is an XML data structure allowing for acknowledgments, requests, and capabilities information. It is carried in a body part with a specific MIME media type. Three elements are defined for use within a control block:
The <ack> element indicates the object being acknowledged and reports success or failure.
The <request> element contains attributes to indicate the request and to supply related information. The 'action' attribute is mandatory and indicates the specific action. An IANA registry is created in Section 14.9.1 to contain the allowed values.
The <capabilities> element has child <request> elements to indicate the actions supported by the IVS.
The <ack> element acknowledges receipt of an eCall data object or request. An <ack> element references the Content-ID of the object being acknowledged. The PSAP MUST send an <ack> element acknowledging receipt of an unsolicited MSD (e.g., sent by the IVS in the INVITE); this <ack> element indicates if the PSAP considers the MSD successfully received or not. An <ack> element is not sent for a <capabilities> element.
The <ack> element has the following attributes:
The <ack> element has the following attributes:
For extensibility, the <ack> element has the following child element:
<?xml version="1.0" encoding="UTF-8"?> <emergencyCallData.control xmlns="urn:ietf:params:xml:ns:EmergencyCallData:control" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"> <ack received="true" ref="1234567890@atlanta.example.com"/> </emergencyCallData.control>
Figure 3: Ack Example from PSAP to IVS
The <capabilities> element is transmitted by the IVS to indicate to the PSAP its capabilities. No attributes for this element are currently defined. The following child elements are defined:
The <capabilities> element has the following child element:
</capabilities>
It is OPTIONAL for the IVS to support the <capabilities> element. If the IVS does not send a <capabilities> element, this indicates that the only <request> action supported by the IVS is 'send-data' with 'datatype' set to 'eCall.MSD'.
<?xml version="1.0" encoding="UTF-8"?> <EmergencyCallData.Control xmlns="urn:ietf:params:xml:ns:EmergencyCallData:control" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"> <capabilities> <request action="send-data" supported-values="eCall.MSD"/> </capabilities> </EmergencyCallData.Control>
Figure 4: Capabilities Example
A <request> element appears one or more times on its own or as a child of a <capabilities> element. It allows the PSAP to request that the IVS perform an action. The only action that MUST be supported is to send an MSD. The following attributes and child elements are defined:
The <request> element has the following attributes:
<?xml version="1.0" encoding="UTF-8"?> <emergencyCallData.control xmlns="urn:ietf:params:xml:ns:EmergencyCallData:control" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"> <request action="send-data" datatype="eCall.MSD"/> </emergencyCallData.control>
Figure 5: Request Example
Figure 6 illustrates an eCall. The call uses the request URI 'urn:service:sos.ecall.automatic' service URN and is recognized as an eCall, and further as one that was invoked automatically by the IVS due to a crash or other serious incident. In this example, the originating network routes the call to an ESInet which routes the call to the appropriate NG-eCall capable PSAP. The emergency call is received by the ESInet's Emergency Services Routing Proxy (ESRP), as the entry point into the ESInet. The ESRP routes the call to a PSAP, where it is received by a call taker. In deployments where there is no ESInet, the originating network routes the call directly to the appropriate NG-eCall capable PSAP, an illustration of which would be identical to the one below except without an ESInet or ESRP.
+------------+ +---------------------------------------+ | | | +-------+ | | | | | PSAP2 | | | | | +-------+ | | | | | | | | +------+ +-------+ | Vehicle-->| |--+->| ESRP |---->| PSAP1 |--> Call-Taker | | | | +------+ +-------+ | | | | | | | | +-------+ | | | | | PSAP3 | | | Originating| | +-------+ | | Mobile | | | | Network | | ESInet | +------------+ +---------------------------------------+
Figure 6: Example of NG-eCall Message Flow
Figure 7 illustrates an eCall call flow with a mid-call PSAP request for an updated MSD. The call flow shows the IVS initiating an emergency call, including the MSD in the INVITE. The PSAP includes in the 200 OK response a metadata/control object acknowledging receipt of the MSD. During the call, the PSAP sends a request for an MSD in an INFO request. The IVS sends the requested MSD in a new INFO request.
IVS PSAP |(1) INVITE (eCall MSD) | |------------------------------------------->| | | |(2) 200 OK (eCall metadata [ack MSD]) | |<-------------------------------------------| | | |(3) start media stream(s) | |............................................| | | |(4) INFO (eCall metadata [request MSD]) | |<-------------------------------------------| | | |(5) 200 OK | |------------------------------------------->| | | |(6) INFO (eCall MSD) | |------------------------------------------->| | | |(7) 200 OK | |<-------------------------------------------| | | |(8) BYE | |<-------------------------------------------| | | |(9) end media streams | |............................................| | | |(10) 200 OK | |------------------------------------------->|
Figure 7: NG-eCall Call Flow Illustration
The example, shown in Figure 8, illustrates a SIP eCall INVITE request containing an MSD. For simplicity, the example does not show all SIP headers, nor the SDP contents, nor does it show any additional data blocks added by the IVS or the originating mobile network. Because the MSD is encoded in ASN.1 PER, which is a binary encoding, its contents cannot be included in a text document.
INVITE urn:service:sos.ecall.automatic SIP/2.0 To: urn:service:sos.ecall.automatic From: <sip:+13145551111@example.com>;tag=9fxced76sl Call-ID: 3848276298220188511@atlanta.example.com Geolocation: <cid:target123@example.com> Geolocation-Routing: no Call-Info: <cid:1234567890@atlanta.example.com>; purpose=emergencyCallData.eCall.MSD Accept: application/sdp, application/pidf+xml, application/emergencyCallData.control+xml CSeq: 31862 INVITE Recv-Info: emergencyCallData.eCall.MSD Allow: INVITE, ACK, PRACK, INFO, OPTIONS, CANCEL, REFER, BYE, SUBSCRIBE, NOTIFY, UPDATE Content-Type: multipart/mixed; boundary=boundary1 Content-Length: ... --boundary1 Content-Type: application/sdp ...Session Description Protocol (SDP) goes here... --boundary1 Content-Type: application/pidf+xml Content-ID: <target123@example.com> Content-Disposition: by-reference;handling=optional ...PIDF-LO goes in here --boundary1 Content-Type: application/emergencyCallData.eCall.MSD+per Content-ID: <1234567890@atlanta.example.com> Content-Disposition: by-reference;handling=optional ...MSD in ASN.1 PER encoding goes here... --boundary1--
Figure 8: SIP NG-eCall INVITE
Continuing the example, Figure 9 illustrates a SIP 200 OK response to the INVITE request of Figure 8, containing a control block acknowledging successful receipt of the eCall MSD. (For simplicity, the example does not show all SIP headers.)
SIP/2.0 200 OK To: urn:service:sos.ecall.automatic;tag=8gydfe65t0 From: <sip:+13145551111@example.com>;tag=9fxced76sl Call-ID: 3848276298220188511@atlanta.example.com Call-Info: <cid:2345678901@atlanta.example.com>; purpose=emergencyCallData.control Accept: application/sdp, application/pidf+xml, application/emergencyCallData.control+xml, application/emergencyCallData.eCall.MSD+per CSeq: 31862 INVITE Recv-Info: emergencyCallData.eCall.MSD Allow: INVITE, ACK, PRACK, INFO, OPTIONS, CANCEL, REFER, BYE, SUBSCRIBE, NOTIFY, UPDATE Content-Type: multipart/mixed; boundary=boundaryX Content-Length: ... --boundaryX Content-Type: application/sdp ...Session Description Protocol (SDP) goes here... --boundaryX Content-Type: application/emergencyCallData.control+xml Content-ID: <2345678901@atlanta.example.com> Content-Disposition: by-reference <?xml version="1.0" encoding="UTF-8"?> <emergencyCallData.control xmlns="urn:ietf:params:xml:ns:EmergencyCallData:control" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"> <ack received="true" ref="1234567890@atlanta.example.com"/> </emergencyCallData.control> --boundaryX--
Figure 9: 200 OK response to INVITE
Figure 10 illustrates a SIP INFO request containing a metadata/control block requesting an eCall MSD. (For simplicity, the example does not show all SIP headers.)
INFO sip:+13145551111@example.com SIP/2.0 To: <sip:+13145551111@example.com>;tag=9fxced76sl From: Exemplar PSAP <urn:service:sos.ecall.automatic>;tag=8gydfe65t0 Call-ID: 3848276298220188511@atlanta.example.com Call-Info: <cid:3456789012@atlanta.example.com>; purpose=emergencyCallData.control CSeq: 41862 INFO Info-Package: emergencyCallData.eCall.MSD Allow: INVITE, ACK, PRACK, INFO, OPTIONS, CANCEL, REFER, BYE, SUBSCRIBE, NOTIFY, UPDATE Content-Type: multipart/mixed; boundary=boundaryZZZ Content-Disposition: Info-Package Content-Length: ... --boundaryZZZ Content-Disposition: by-reference Content-Type: application/emergencyCallData.control+xml Content-ID: <3456789012@atlanta.example.com> <?xml version="1.0" encoding="UTF-8"?> <emergencyCallData.control xmlns="urn:ietf:params:xml:ns:EmergencyCallData:control" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"> <request action="send-data" datatype="eCall.MSD"/> </emergencyCallData.control> --boundaryZZZ--
Figure 10: INFO requesting MSD
Figure 11 illustrates a SIP INFO request containing an MSD. For simplicity, the example does not show all SIP headers. Because the MSD is encoded in ASN.1 PER, which is a binary encoding, its contents cannot be included in a text document.
INFO urn:service:sos.ecall.automatic SIP/2.0 To: urn:service:sos.ecall.automatic;tag=8gydfe65t0 From: <sip:+13145551111@example.com>;tag=9fxced76sl Call-ID: 3848276298220188511@atlanta.example.com Call-Info: <cid:4567890123@atlanta.example.com>; purpose=emergencyCallData.eCall.MSD CSeq: 51862 INFO Info-Package: emergencyCallData.eCall.MSD Allow: INVITE, ACK, PRACK, INFO, OPTIONS, CANCEL, REFER, BYE, SUBSCRIBE, NOTIFY, UPDATE Content-Type: multipart/mixed; boundary=boundaryLine Content-Disposition: Info-Package Content-Length: ... --boundaryLine Content-Type: application/emergencyCallData.eCall.MSD+per Content-ID: <4567890123@atlanta.example.com> Content-Disposition: by-reference ...MSD in ASN.1 PER encoding goes here... --boundaryLine--
Figure 11: INFO containing MSD
The security considerations described in [RFC5069] (on marking and routing emergency calls) apply here.
In addition to any network-provided location (which might be determined solely by the network, or in cooperation with or possibly entirely by the originating device), an eCall carries an IVS-supplied location within the MSD. This is likely to be useful to the PSAP, especially when no network-provided location is included, or when the two locations are independently determined. Even in situations where the network-supplied location is limited to the cell site, this can be useful as a sanity check on the device-supplied location contained in the MSD.
The document [RFC7378] discusses trust issues regarding location provided by or determined in cooperation with end devices.
Security considerations specific to the mechanism by which the PSAP sends acknowledgments and requests to the vehicle are discussed in the "Security Considerations" block of Section 14.5. Note that an attacker that has access to and is capable of generating a response to the initial INVITE request could generate a 600 (Busy Everywhere), 486 (Busy Here), or 603 (Decline) response that includes a metadata/control object containing a reference to the MSD in the initial INVITE and a "received=true" field, which could result in the IVS perceiving the PSAP to be overloaded and hence not attempting to reinitiate the call. The risk can be mitigated as discussed in the "Security Considerations" block of Section 14.5.
Data received from external sources inherently carries implementation risks. For example, depending on the platform, buffer overflows can introduce remote code execution vulnerabilities, null characters can corrupt strings, numeric values used for internal calculations can result in underflow/overflow errors, malformed XML objects can expose parsing bugs, etc. Implementations need to be cognizant of the potential risks, observe best practices (which might include sufficiently capable static code analysis, fuzz testing, component isolation, avoiding use of unsafe coding techniques, third-party attack tests, signed software, over-the-air updates, etc.), and have multiple levels of protection. Implementors need to be aware that, potentially, the data objects described here and elsewhere (including the MSD and metadata/control objects) might be malformed, might contain unexpected characters, excessively long attribute values, elements, etc.
The security considerations discussed in [RFC7852] apply here (see especially the discussion of TLS, TLS versions, cipher suites, and PKI).
When vehicle data or control/metadata is contained in a signed or encrypted body part, the enclosing multipart (e.g., multipart/signed or multipart/encrypted) has the same Content-ID as the enclosed data part. This allows an entity to identify and access the data blocks it is interested in without having to dive deeply into the message structure or decrypt parts it is not interested in. (The 'purpose' parameter in a Call-Info header field identifies the data and contains a CID URL pointing to the data block in the body, which has a matching Content-ID body part header field).
The privacy considerations discussed in [RFC7852] apply here. The MSD carries some identifying and personal information (mostly about the vehicle and less about the owner), as well as location information, and so needs to be protected against unauthorized disclosure. Local regulations may impose additional privacy protection requirements.
Privacy considerations specific to the data structure containing vehicle information are discussed in the "Security Considerations" block of Section 14.4.
Privacy considerations specific to the mechanism by which the PSAP sends acknowledgments and requests to the vehicle are discussed in the "Security Considerations" block of Section 14.5.
This section defines an XML schema for the control block. The text description of the control block in Section 9.1 is normative and supersedes any conflicting aspect of this schema.
<?xml version="1.0"?> <xs:schema targetNamespace="urn:ietf:params:xml:ns:EmergencyCallData:control" xmlns:xs="http://www.w3.org/2001/XMLSchema" xmlns:pi="urn:ietf:params:xml:ns:EmergencyCallData:control" xmlns:xml="http://www.w3.org/XML/1998/namespace" elementFormDefault="qualified" attributeFormDefault="unqualified"> <xs:import namespace="http://www.w3.org/XML/1998/namespace"/> <xs:element name="EmergencyCallData.control" type="pi:controlType"/> <xs:complexType name="controlType"> <xs:complexContent> <xs:restriction base="xs:anyType"> <xs:choice> <xs:element name="capabilities" type="pi:capabilitiesType"/> <xs:element name="request" type="pi:requestType"/> <xs:element name="ack" type="pi:ackType"/> <xs:any namespace="##any" processContents="lax" minOccurs="0" maxOccurs="unbounded"/> </xs:choice> <xs:anyAttribute/> </xs:restriction> </xs:complexContent> </xs:complexType> <xs:complexType name="ackType"> <xs:complexContent> <xs:restriction base="xs:anyType"> <xs:sequence minOccurs="1" maxOccurs="unbounded"> <xs:element name="actionResult" minOccurs="0" maxOccurs="unbounded"> <xs:complexType> <xs:attribute name="action" type="xs:token" use="required"/> <xs:attribute name="success" type="xs:boolean" use="required"/> <xs:attribute name="reason" type="xs:token"> <xs:annotation> <xs:documentation> conditionally mandatory when @success="false" to indicate reason code for a failure </xs:documentation> </xs:annotation> </xs:attribute> <xs:attribute name="details" type="xs:string"/> <xs:anyAttribute processContents="skip"/> </xs:complexType> </xs:element> <xs:any namespace="##any" processContents="lax" minOccurs="0" maxOccurs="unbounded"/> </xs:sequence> <xs:attribute name="ref" type="xs:anyURI" use="required"/> <xs:attribute name="received" type="xs:boolean"/> <xs:anyAttribute/> </xs:restriction> </xs:complexContent> </xs:complexType> <xs:complexType name="capabilitiesType"> <xs:complexContent> <xs:restriction base="xs:anyType"> <xs:sequence minOccurs="1" maxOccurs="unbounded"> <xs:element name="request" type="pi:requestType" minOccurs="1" maxOccurs="unbounded"/> <xs:any namespace="##any" processContents="lax" minOccurs="0" maxOccurs="unbounded"/> </xs:sequence> <xs:anyAttribute/> </xs:restriction> </xs:complexContent> </xs:complexType> <xs:complexType name="requestType"> <xs:complexContent> <xs:restriction base="xs:anyType"> <xs:choice minOccurs="1" maxOccurs="unbounded"> <xs:any namespace="##any" processContents="lax" minOccurs="0" maxOccurs="unbounded"/> </xs:choice> <xs:attribute name="action" type="xs:token" use="required"/> <xs:attribute name="int-id" type="xs:unsignedInt"/> <xs:attribute name="persistence" type="xs:duration"/> <xs:attribute name="datatype" type="xs:token"/> <xs:attribute name="supported-values" type="xs:string"/> <xs:attribute name="element-id" type="xs:token"/> <xs:attribute name="requested-state" type="xs:token"/> <xs:anyAttribute/> </xs:restriction> </xs:complexContent> </xs:complexType> </xs:schema>
Figure 12: Control Block Schema
This document establishes the "EmergencyCallData" media (MIME) subtype tree, a new media subtree rooted at "application/EmergencyCallData". This subtree is used only for content associated with emergency communications. New subtypes in this subtree follow the rules specified in Section 3.1 of [RFC6838], with the additional restriction that the standards-related organization MUST be responsible for some aspect of emergency communications.
This subtree initially contains the following subtypes (defined here or in [RFC7852]):
IANA is requested to register the URN 'urn:service:sos.ecall' under the sub-services 'sos' registry defined in Section 4.2 of [RFC5031].
This service requests resources associated with an emergency call placed by an in-vehicle system, carrying a standardized set of data related to the vehicle and incident. Two sub-services are registered as well:
IANA is also requested to register the URN 'urn:service:test.sos.ecall' under the sub-service 'test' registry defined in Setcion 17.2 of [RFC6881]. This service requests resources associated with a test (non-emergency) call placed by an in-vehicle system. See Section 8 for more information on the test eCall request URN.
IANA is requested to add "+PER" to the as a media type structured syntax suffix in the Structured Syntax Suffix registry. The ITU defined the Packed Encoding Rules (PER) transfer syntax in [ITU.X691]. The suffix "+per" MAY be used with any media type whose representation follows the PER transfer syntax. The media type structured syntax suffix registration form for +per follows:
IANA is requested to add application/emergencyCallData.eCall.MSD+per as a MIME media type, with a reference to this document, in accordance to the procedures of RFC 6838 [RFC6838] and guidelines in RFC 7303 [RFC7303].
IANA is requested to add application/emergencyCallData.control+xml as a MIME media type, with a reference to this document, in accordance to the procedures of RFC 6838 [RFC6838] and guidelines in RFC 7303 [RFC7303].
This specification requests IANA to add the 'eCall.MSD' entry to the Emergency Call Additional Data Types registry, with a reference to this document; the 'Data About' value is 'The Call'.
This specification requests IANA to add the 'control' entry to the Emergency Call Additional Data Types registry, with a reference to this document; the 'Data About' value is 'The Call'.
This section registers a new XML namespace, as per the guidelines in RFC 3688 [RFC3688].
BEGIN <?xml version="1.0"?> <!DOCTYPE html PUBLIC "-//W3C//DTD XHTML Basic 1.0//EN" "http://www.w3.org/TR/xhtml-basic/xhtml-basic10.dtd"> <html xmlns="http://www.w3.org/1999/xhtml"> <head> <meta http-equiv="content-type" content="text/html;charset=iso-8859-1"/> <title>Namespace for eCall Data</title> </head> <body> <h1>Namespace for eCall Data</h1> <p>See [TBD: This document].</p> </body> </html> END
This section registers a new XML namespace, as per the guidelines in RFC 3688 [RFC3688].
BEGIN <?xml version="1.0"?> <!DOCTYPE html PUBLIC "-//W3C//DTD XHTML Basic 1.0//EN" "http://www.w3.org/TR/xhtml-basic/xhtml-basic10.dtd"> <html xmlns="http://www.w3.org/1999/xhtml"> <head> <meta http-equiv="content-type" content="text/html;charset=iso-8859-1"/> <title>Namespace for eCall Data: Control Block</title> </head> <body> <h1>Namespace for eCall Data</h1> <h2>Control Block</h2> <p>See [TBD: This document].</p> </body> </html> END
This document creates a new registry called "Emergency Call Metadata/Control Data". The following sub-registries are created for this registry.
This document creates a new sub-registry called "Emergency Call Action". As defined in [RFC5226], this registry operates under "Expert Review" rules. The expert should determine that the proposed action is within the purview of a vehicle, is sufficiently distinguishable from other actions, and the action is clearly and fully described. In most cases, a published and stable document is referenced for the description of the action.
The content of this registry includes:
The initial set of values is listed in Table 2.
Name | Description |
---|---|
send-data | See Section 9.1.3.1 of this document |
This document creates a new sub-registry called "Emergency Call Action Failure Reason" which contains values for the 'reason' attribute of the <actionResult> element. As defined in [RFC5226], this registry operates under "Expert Review" rules. The expert should determine that the proposed reason is sufficiently distinguishable from other reasons and that the proposed description is understandable and correctly worded.
The content of this registry includes:
The initial set of values is listed in Table 3.
ID | Description |
---|---|
damaged | Required components are damaged. |
data-unsupported | The data item referenced in a 'send-data' request is not supported. |
security-failure | The authenticity of the request or the authority of the requestor could not be verified. |
unable | The action could not be accomplished (a generic error for use when no other code is appropriate). |
unsupported | The 'action' value is not supported. |
This document registers the 'emergencyCallData.eCall.MSD' INFO package.
Both endpoints (the IVS and the PSAP equipment) include 'emergencyCallData.eCall.MSD' in a Recv-Info header field per [RFC6086] to indicate ability to receive INFO requests carrying data as described here.
Support for the 'emergencyCallData.eCall.MSD' INFO package indicates the ability to receive eCall related body parts as specified in [TBD: THIS DOCUMENT].
An INFO request message carrying body parts related to an emergency call as described in [TBD: THIS DOCUMENT] has an Info-Package header field set to 'emergencyCallData.eCall.MSD' per [RFC6086].
The requirements of Section 10 of [RFC6086] are addressed in the following sections.
This section describes "what type of information is carried in INFO requests associated with the Info Package, and for what types of applications and functionalities UAs can use the Info Package."
INFO requests associated with the emergencyCallData.eCall.MSD INFO package carry data associated with emergency calls as defined in [TBD: THIS DOCUMENT]. The application is vehicle-initiated emergency calls established using SIP. The functionality is to carry vehicle data and metadata/control information between vehicles and PSAPs. Refer to [TBD: THIS DOCUMENT] for more information.
This section describes "why the Info Package mechanism, rather than some other mechanism, has been chosen for the specific use-case...."
The use of the SIP INFO method is based on an analysis of the requirements against the intent and effects of the INFO method versus other approaches (which included the SIP MESSAGE method, the SIP OPTIONS method, the SIP re-INVITE method, media plane transport, and non-SIP protocols). In particular, the transport of emergency call data blocks occurs within a SIP emergency dialog, per Section 6, and is normally carried in the initial INVITE request and response; the use of the SIP INFO method only occurs when emergency-call-related data needs to be sent mid-call. While the SIP MESSAGE method could be used, it is not tied to a SIP dialog as is the SIP INFO method and thus might not be associated with the dialog. Either the SIP OPTIONS or re-INVITE methods could also be used, but is seen as less clean than the SIP INFO method. The SIP SUBSCRIBE/NOTIFY method could be coerced into service, but the semantics are not a good fit, e.g., the subscribe/notify mechanism provides one-way communication consisting of (often multiple) notifications from notifier to subscriber indicating that certain events in notifier have occurred, whereas what's needed here is two-way communication of data related to the emergency dialog. Use of the media plane mechanisms was discounted because the number of messages needing to be exchanged in a dialog is normally zero or very few, and the size of the data is likewise very small. The overhead caused by user plane setup (e.g., to use MSRP as transport) would be disproportionately large.
Based on the analyses, the SIP INFO method was chosen to provide for mid-call data transport.
The info package name is emergencyCallData.eCall.MSD
None
None
The body for an emergencyCallData.eCall.MSD info package is a multipart (normally multipart/mixed) body containing zero or one application/emergencyCallData.eCall.MSD+per part (containing an MSD) and zero or more application/emergencyCallData.control+xml (containing a metadata/control object) parts. At least one MSD or metadata/control body part is expected; the behavior upon receiving an INFO request with neither is undefined.
The body parts are sent per [RFC6086], and in addition, to align with with how these body parts are sent in SIP messages other than INFO requests, each associated body part is referenced by a Call-Info header field at the top level of the SIP message. The body part has a Content-Disposition header field set to "By-Reference".
An MSD or metadata/control block is always enclosed in a multipart body part (even if it would otherwise be the only body part in the SIP message), since as of the date of this document, the use of Content-ID as a SIP header field is not defined (while it is defined for use as a MIME header field). The innermost multipart that contains only body parts associated with the INFO package has a Content-Disposition value of Info-Package.
See [TBD: THIS DOCUMENT] for more information.
Usage is limited to vehicle-initiated emergency calls as defined in [TBD: THIS DOCUMENT].
The SIP INFO request is used within an established emergency call dialog for the PSAP to request the IVS to send an updated MSD, and for the IVS to send a requested MSD. Because this is normally done only on manual request of the PSAP call taker (who suspects some aspect of the vehicle state has changed), the rate of SIP INFO requests associated with the emergencyCallData.eCall.MSD info package is normally quite low (most dialogs are likely to contain zero INFO requests, while others might carry an occasional request).
The MIME media type registrations specified for use with this INFO package (Section 14.4 and Section 14.5) contain a discussion of the security and/or privacy considerations specific to that data block. The "Security Considerations" and "Privacy Considerations" sections of [TBD: THIS DOCUMENT] discuss security and privacy considerations of the data carried in eCalls.
See [TBD: THIS DOCUMENT] for protocol details.
See [TBD: THIS DOCUMENT] for protocol examples.
Brian Rosen was a co-author of the original document upon which this document is based.
We would like to thank Bob Williams and Ban Al-Bakri for their feedback and suggestion; Rex Buddenberg, Lena Chaponniere, Alissa Cooper, Keith Drage, Stephen Edge, Wes George, Allison Mankin, Ivo Sedlacek, and James Winterbottom for their review and comments; Robert Sparks and Paul Kyzivat for their help with the SIP mechanisms; Mark Baker and Ned Freed for their help with the media subtype registration issue. We would like to thank Michael Montag, Arnoud van Wijk, Gunnar Hellstrom, and Ulrich Dietz for their help with the original document upon which this document is based. Christer Holmberg deserves special mention for his many detailed reviews.
RFC Editor: Please remove this section prior to publication.