From 4bfd864f10b68b71482b35c818559068ef8d5797 Mon Sep 17 00:00:00 2001 From: Thomas Voss Date: Wed, 27 Nov 2024 20:54:24 +0100 Subject: doc: Add RFC documents --- doc/rfc/rfc2848.txt | 4091 +++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 4091 insertions(+) create mode 100644 doc/rfc/rfc2848.txt (limited to 'doc/rfc/rfc2848.txt') diff --git a/doc/rfc/rfc2848.txt b/doc/rfc/rfc2848.txt new file mode 100644 index 0000000..0406d50 --- /dev/null +++ b/doc/rfc/rfc2848.txt @@ -0,0 +1,4091 @@ + + + + + + +Network Working Group S. Petrack +Request for Comments: 2848 MetaTel +Category: Standards Track L. Conroy + Siemens Roke Manor Research + June 2000 + + + The PINT Service Protocol: + Extensions to SIP and SDP for IP Access to Telephone Call Services + +Status of this Memo + + This document specifies an Internet standards track protocol for the + Internet community, and requests discussion and suggestions for + improvements. Please refer to the current edition of the "Internet + Official Protocol Standards" (STD 1) for the standardization state + and status of this protocol. Distribution of this memo is unlimited. + +Copyright Notice + + Copyright (C) The Internet Society (2000). All Rights Reserved. + +Abstract + + This document contains the specification of the PINT Service Protocol + 1.0, which defines a protocol for invoking certain telephone services + from an IP network. These services include placing basic calls, + sending and receiving faxes, and receiving content over the + telephone. The protocol is specified as a set of enhancements and + additions to the SIP 2.0 and SDP protocols. + +Table of Contents + + 1. Introduction ................................................. 4 + 1.1 Glossary .................................................... 6 + 2. PINT Milestone Services ...................................... 6 + 2.1 Request to Call ............................................. 7 + 2.2 Request to Fax Content ...................................... 7 + 2.3 Request to Speak/Send/Play Content .......................... 7 + 2.4 Relation between PINT milestone services and traditional + telephone services .......................................... 7 + 3. PINT Functional and Protocol Architecture .................... 8 + 3.1. PINT Functional Architecture ............................... 8 + 3.2. PINT Protocol Architecture ................................. 9 + 3.2.1. SDP operation in PINT .................................... 10 + 3.2.2. SIP Operation in PINT .................................... 11 + 3.3. REQUIRED and OPTIONAL elements for PINT compliance ......... 11 + 3.4. PINT Extensions to SDP 2.0 ................................. 12 + + + +Petrack & Conroy Standards Track [Page 1] + +RFC 2848 The PINT Service Protocol June 2000 + + + 3.4.1. Network Type "TN" and Address Type "RFC2543" ............. 12 + 3.4.2. Support for Data Objects within PINT ..................... 13 + 3.4.2.1. Use of fmtp attributes in PINT requests ................ 15 + 3.4.2.2. Support for Remote Data Object References in PINT ...... 16 + 3.4.2.3. Support for GSTN-based Data Objects in PINT ............ 17 + 3.4.2.4. Session Description support for included Data Objects .. 18 + 3.4.3. Attribute Tags to pass information into the Telephone + Network .................................................. 19 + 3.4.3.1. The phone-context attribute ............................ 20 + 3.4.3.2. Presentation Restriction attribute ..................... 22 + 3.4.3.3. ITU-T CalledPartyAddress attributes parameters ......... 23 + 3.4.4. The "require" attribute .................................. 24 + 3.5. PINT Extensions to SIP 2.0 ................................. 25 + 3.5.1. Multi-part MIME (sending data along with SIP request) .... 25 + 3.5.2. Warning header ........................................... 27 + 3.5.3. Mechanism to register interest in the disposition of a PINT + service, and to receive indications on that disposition .. 27 + 3.5.3.1. Opening a monitoring session with a SUBSCRIBE request .. 28 + 3.5.3.2. Sending Status Indications with a NOTIFY request ....... 30 + 3.5.3.3. Closing a monitoring session with an UNSUBSCRIBE request 30 + 3.5.3.4. Timing of SUBSCRIBE requests ........................... 31 + 3.5.4. The "Require:" header for PINT ........................... 32 + 3.5.5. PINT URLs within PINT requests ........................... 32 + 3.5.5.1. PINT URLS within Request-URIs .......................... 33 + 3.5.6. Telephony Network Parameters within PINT URLs ............ 33 + 3.5.7. REGISTER requests within PINT ............................ 34 + 3.5.8. BYE Requests in PINT ..................................... 35 + 4. Examples of PINT Requests and Responses ...................... 37 + 4.1. A request to a call center from an anonymous user to receive + a phone call ............................................... 37 + 4.2. A request from a non anonymous customer (John Jones) to + receive a phone call from a particular sales agent + (Mary James) ............................................... 37 + 4.3. A request to get a fax back ................................ 38 + 4.4. A request to have information read out over the phone ...... 39 + 4.5. A request to send an included text page to a friend's pager. 39 + 4.6. A request to send an image as a fax to phone number + +972-9-956-1867 ............................................ 40 + 4.7. A request to read out over the phone two pieces of content + in sequence ................................................ 41 + 4.8. Request for the prices for ISDN to be sent to my fax + machine .................................................... 42 + 4.9. Request for a callback ..................................... 42 + 4.10.Sending a set of information in response to an enquiry ..... 43 + 4.11.Sportsline "headlines" message sent to your phone/fax/pager 44 + 4.12.Automatically giving someone a fax copy of your phone bill . 45 + 5. Security Considerations ...................................... 46 + 5.1. Basic Principles for PINT Use ............................. 46 + + + +Petrack & Conroy Standards Track [Page 2] + +RFC 2848 The PINT Service Protocol June 2000 + + + 5.1.1. Responsibility for service requests ..................... 46 + 5.1.2. Authority to make requests .............................. 47 + 5.1.3. Privacy ................................................. 47 + 5.1.4. Privacy Implications of SUBSCRIBE/NOTIFY ................ 48 + 5.2. Registration Procedures ................................... 49 + 5.3. Security mechanisms and implications on PINT service ...... 50 + 5.4. Summary of Security Implications .......................... 52 + 6. Deployment considerations and the Relationship PINT to I.N. + (Informative) ................................................ 54 + 6.1. Web Front End to PINT Infrastructure ....................... 54 + 6.2. Redirects to Multiple Gateways ............................. 54 + 6.3. Competing PINT Gateways REGISTERing to offer the same + service .................................................... 55 + 6.4. Limitations on Available Information and Request Timing for + SUBSCRIBE .................................................. 56 + 6.5. Parameters needed for invoking traditional GSTN Services + within PINT................................................. 58 + 6.5.1. Service Identifier ....................................... 58 + 6.5.2. A and B parties .......................................... 58 + 6.5.3. Other Service Parameters ................................. 59 + 6.5.4. Service Parameter Summary ................................ 59 + 6.6. Parameter Mapping to PINT Extensions........................ 60 + 7. References ................................................... 62 + 8. Acknowledgements ............................................. 64 + Appendix A: Collected ABNF for PINT Extensions .................. 65 + Appendix B: IANA Considerations ................................. 69 + Authors' Addresses .............................................. 72 + Full Copyright Statement ........................................ 73 + + + + + + + + + + + + + + + + + + + + + + + +Petrack & Conroy Standards Track [Page 3] + +RFC 2848 The PINT Service Protocol June 2000 + + +1. Introduction + + The desire to invoke certain telephone call services from the + Internet has been identified by many different groups (users, public + and private network operators, call center service providers, + equipment vendors, see [7]). The generic scenario is as follows (when + the invocation is successful): + + 1. an IP host sends a request to a server on an IP network; + 2. the server relays the request into a telephone network; + 3. the telephone network performs the requested call service. + + As examples, consider a user who wishes to have a callback placed to + his/her telephone. It may be that a customer wants someone in the + support department of some business to call them back. Similarly, a + user may want to hear some announcement of a weather warning sent + from a remote automatic weather service in the event of a storm. + + We use the term "PSTN/Internet Interworking (PINT) Service" to denote + such a complete transaction, starting with the sending of a request + from an IP client and including the telephone call itself. PINT + services are distinguished by the fact that they always involve two + separate networks: + + an IP network to request the placement of a call, and the Global + Switched Telephone Network (GSTN) to execute the actual call. It + is understood that Intelligent Network systems, private PBXs, + cellular phone networks, and the ISDN can all be used to deliver + PINT services. Also, the request for service might come from + within a private IP network that is disconnected from the whole + Internet. + + The requirements for the PINT protocol were deliberately restricted + to providing the ability to invoke a small number of fixed telephone + call services. These "Milestone PINT services" are specified in + section 2. Great care has been taken, however, to develop a protocol + that is aligned with other Internet protocols where possible, so that + future extensions to PINT could develop along with Internet + conferencing. + + Within the Internet conference architecture, establishing media calls + is done via a combination of protocols. SIP [1] is used to establish + the association between the participants within the call (this + association between participants within the call is called a + "session"), and SDP [2] is used to describe the media to be exchanged + within the session. The PINT protocol uses these two protocols + together, providing some extensions and enhancements to enable SIP + clients and servers to become PINT clients and servers. + + + +Petrack & Conroy Standards Track [Page 4] + +RFC 2848 The PINT Service Protocol June 2000 + + + A PINT user who wishes to invoke a service within the telephone + network uses SIP to invite a remote PINT server into a session. The + invitation contains an SDP description of the media session that the + user would like to take place. This might be a "sending a fax + session" or a "telephone call session", for example. In a PINT + service execution session the media is transported over the phone + system, while in a SIP session the media is normally transported over + an internet. + + When used to invoke a PINT service, SIP establishes an association + between a requesting PINT client and the PINT server that is + responsible for invoking the service within the telephone network. + These two entities are not the same entities as the telephone network + entities involved in the telephone network service. The SIP messages + carry within their SDP payloads a description of the telephone + network media session. + + Note that the fact that a PINT server accepts an invitation and a + session is established is no guarantee that the media will be + successfully transported. (This is analogous to the fact that if a + SIP invitation is accepted successfully, this is no guarantee against + a subsequent failure of audio hardware). + + The particular requirements of PINT users lead to some new messages. + When a PINT server agrees to send a fax to telephone B, it may be + that the fax transmission fails after part of the fax is sent. + Therefore, the PINT client may wish to receive information about the + status of the actual telephone call session that was invoked as a + result of the established PINT session. Three new requests, + SUBSCRIBE, UNSUBSCRIBE, and NOTIFY, are added here to vanilla SIP to + allow this. + + The enhancements and additions specified here are not intended to + alter the behaviour of baseline SIP or SDP in any way. The purpose of + PINT extensions is to extend the usual SIP/SDP services to the + telephone world. Apart from integrating well into existing protocols + and architectures, and the advantages of reuse, this means that the + protocol specified here can handle a rather wider class of call + services than just the Milestone services. + + The rest of this document is organised as follows: Section 2 + describes the PINT Milestone services; section 3 specifies the PINT + functional and protocol architecture; section 4 gives examples of the + PINT 1.0 extensions of SIP and SDP; section 5 contains some security + considerations for PINT. The final section contains descriptions of + how the PINT protocol may be used to provide service over the GSTN. + + + + + +Petrack & Conroy Standards Track [Page 5] + +RFC 2848 The PINT Service Protocol June 2000 + + + For a summary of the extensions to SIP and SDP specified in this + document, Section 3.2 gives an combined list, plus one each + describing the extensions to SIP and SDP respectively. + + 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 RFC 2119. In addition, + the construct "MUST .... OR ...." implies that it is an absolute + requirement of this specification to implement one of the two + possibilities stated (represented by dots in the above phrase). An + implementation MUST be able to interoperate with another + implementation that chooses either of the two possibilities. + +1.1 Glossary + + Requestor - An Internet host from which a request for service + originates + + PINT Service - A service invoked within a phone system in response to + a request received from an PINT client. + + PINT Client - An Internet host that sends requests for invocation of + a PINT Service, in accordance with this document. + + PINT Gateway - An Internet host that accepts requests for PINT + Service and dispatches them onwards towards a telephone network. + + Executive System - A system that interfaces to a PINT Server and to a + telephone network that executes a PINT service. It need not be + directly associated with the Internet, and is represented by the PINT + Server in transactions with Internet entities. + + Requesting User - The initiator of a request for service. This role + may be distinct from that of the "party" to any telephone network + call that results from the request. + + (Service Call) Party - A person who is involved in a telephone + network call that results from the execution of a PINT service + request, or a telephone network-based resource that is involved (such + as an automatic Fax Sender or a Text-to-Speech Unit). + +2. PINT Milestone Services + + The original motivation for defining this protocol was the desire to + invoke the following three telephone network services from within an + IP network: + + + + + +Petrack & Conroy Standards Track [Page 6] + +RFC 2848 The PINT Service Protocol June 2000 + + +2.1 Request to Call + + A request is sent from an IP host that causes a phone call to be + made, connecting party A to some remote party B. + +2.2 Request to Fax Content + + A request is sent from an IP host that causes a fax to be sent to fax + machine B. The request MAY contain a pointer to the fax data (that + could reside in the IP network or in the Telephone Network), OR the + fax data itself. The content of the fax MAY be text OR some other + more general image data. The details of the fax transmission are not + accessible to the IP network, but remain entirely within the + telephone network. + + Note that this service does not relate to "Fax over IP": the IP + network is only used to send the request that a certain fax be sent. + Of course, it is possible that the resulting telephone network fax + call happens to use a real-time IP fax solution, but this is + completely transparent to the PINT transaction. + +2.3 Request to Speak/Send/Play Content + + A request is sent from an IP host that causes a phone call to be made + to user A, and for some sort of content to be spoken out. The request + MUST EITHER contain a URL pointing to the content, OR include the + content itself. The content MAY be text OR some other more general + application data. The details of the content transmission are not + accessible to the IP network, but remain entirely within the + telephone network. This service could equally be called "Request to + Hear Content"; the user's goal is to hear the content spoken to them. + The mechanism by which the request is formulated is outside the scope + of this document; however, an example might be that a Web page has a + button that when pressed causes a PINT request to be passed to the + PSTN, resulting in the content of the page (or other details) being + spoken to the person. + +2.4 Relation between PINT milestone services and traditional telephone + services + + There are many different versions and variations of each telephone + call service invoked by a PINT request. Consider as an example what + happens when a user requests to call 1-800-2255-287 via the PINT + Request-to-Call service. + + There may be thousands of agents in the call center, and there may be + any number of sophisticated algorithms and pieces of equipment that + are used to decide exactly which agent will return the call. And once + + + +Petrack & Conroy Standards Track [Page 7] + +RFC 2848 The PINT Service Protocol June 2000 + + + this choice is made, there may be many different ways to set up the + call: the agent's phone might ring first, and only then the original + user will be called; or perhaps the user might be called first, and + hear some horrible music or pre-recorded message while the agent is + located. + + Similarly, when a PINT request causes a fax to be sent, there are + hundreds of fax protocol details to be negotiated, as well as + transmission details within the telephone networks used. + + PINT requests do not specify too precisely the exact telephone-side + service. Operational details of individual events within the + telephone network that executes the request are outside the scope of + PINT. This does not preclude certain high-level details of the + telephone network session from being expressed within a PINT request. + For example, it is possible to use the SDP "lang" attribute to + express a language preference for the Request-to-Hear-Content + Service. If a particular PINT system wishes to allow requests to + contain details of the telephone-network-side service, it uses the + SDP attribute mechanism (see section 3.4.2). + +3. PINT Functional and Protocol Architecture + +3.1. PINT Functional Architecture + + Familiarity is assumed with SIP 2.0 [1] and with SDP [2]. + + PINT clients and servers are SIP clients and servers. SIP is used to + carry the request over the IP network to the correct PINT server in a + secure and reliable manner, and SDP is used to describe the telephone + network session that is to be invoked or whose status is to be + returned. + + A PINT system uses SIP proxy servers and redirect servers for their + usual purpose, but at some point there must be a PINT server with the + means to relay received requests into a telephone system and to + receive acknowledgement of these relayed requests. A PINT server with + this capability is called a "PINT gateway". A PINT gateway appears to + a SIP system as a User Agent Server. Notice that a PINT gateway + appears to the PINT infrastructure as if it represents a "user", + while in fact it really represents an entire telephone network + infrastructure that can provide a set of telephone network services. + + + + + + + + + +Petrack & Conroy Standards Track [Page 8] + +RFC 2848 The PINT Service Protocol June 2000 + + + So the PINT system might appear to an individual PINT client as + follows: + + /\/\/\/\/\/\/\ /\/\/\/\/\/\/\/\ +___________ \ __/___ ___\_ \ +| PINT | PINT \ PINT | PINT | |Exec| Telephone / +| client |<-------------->| server |gatewy|=====|Syst| Network \ +|_________| protocol / cloud |______| |____| Cloud / + \ \ / \ + /\/\/\/\/\/\/\ \/\/\/\/\/\/\/\/ + + Figure 1: PINT Functional Architecture + + The system of PINT servers is represented as a cloud to emphasise + that a single PINT request might pass through a series of location + servers, proxy servers, and redirect servers, before finally reaching + the correct PINT gateway that can actually process the request by + passing it to the Telephone Network Cloud. + + The PINT gateway might have a true telephone network interface, or it + might be connected via some other protocol or API to an "Executive + System" that is capable of invoking services within the telephone + cloud. + + As an example, within an I.N. (Intelligent Network) system, the PINT + gateway might appear to realise the Service Control Gateway Function. + In an office environment, it might be a server adjunct to the office + PBX, connected to both the office LAN and the office PBX. + + The Executive System that lies beyond the PINT gateway is outside the + scope of PINT. + +3.2. PINT Protocol Architecture + + This section explains how SIP and SDP work in combination to convey + the information necessary to invoke telephone network sessions. + + The following list summarises the extension features used in PINT + 1.0. Following on from this the features are considered separately + for SDP and then for SIP: + + 1) Telephony URLs in SDP Contact Fields + 2) Refinement of SIP/SDP Telephony URLs + * Inclusion of private dialling plans + 3) Specification of Telephone Service Provider (TSP) and/or phone- + context URL-parameters + 4) Data Objects as session media + + + + +Petrack & Conroy Standards Track [Page 9] + +RFC 2848 The PINT Service Protocol June 2000 + + + 4a) Protocol Transport formats to indicate the treatment of the media + within the GSTN + 5) Implicit (Indirect) media streams and opaque arguments + 6) In-line data objects using multipart/mime + 7) Refinement/Clarification of Opaque arguments passed onwards to + Executive Systems + * Framework for Presentation Restriction Indication + * Framework for Q.763 arguments + 8) An extension mechanism for SDP to specify strictures and force + failure when a recipient does NOT support the specified + extensions, using "require" headers. + 9) Mandatory support for "Warning" headers to give more detailed + information on request disposition. + 10) Mechanism to register interest in the disposition of a requested + service, and to receive indications on that disposition. + + Both PINT and SIP rely on features of MIME[4]. The use of SIP 2.0 is + implied by PINT 1.0, and this also implies compliance with version + 1.0 of MIME. + +3.2.1. SDP operation in PINT + + The SDP payload contains a description of the particular telephone + network session that the requestor wishes to occur in the GSTN. This + information includes such things as the telephone network address + (i.e. the "telephone number") of the terminal(s) involved in the + call, an indication of the media type to be transported (e.g. audio, + text, image or application data), and an indication if the + information is to be transported over the telephone network via + voice, fax, or pager transport. An indication of the content to be + sent to the remote telephone terminal (if there is any) is also + included. + + SDP is flexible enough to convey these parameters independently. For + example, a request to send some text via voice transport will be + fulfilled by invoking some text-to-speech-over-the-phone service, and + a request to send text via fax will be fulfilled by invoking some + text-to-fax service. + + The following is a list of PINT 1.0 enhancements and additions to + SDP. + + a. A new network type "TN" and address types "RFC2543" and "X-..." + (section 3.4.1) + b. New media types "text", "image", and "application", new + protocol transport keywords "voice", "fax" and "pager" and the + associated format types and attribute tags (section 3.4.2) + + + + +Petrack & Conroy Standards Track [Page 10] + +RFC 2848 The PINT Service Protocol June 2000 + + + c. New format specific attributes for included content data + (section 3.4.2.4) + d. New attribute tags, used to pass information to the telephone + network (section 3.4.3) + e. A new attribute tag "require", used by a client to indicate + that some attribute is required to be supported in the server + (section 3.4.4) + +3.2.2. SIP Operation in PINT + + SIP is used to carry the request for telephone service from the PINT + client to the PINT gateway, and may include a telephone number if + needed for the particular service. The following is a complete list + of PINT enhancements and additions to SIP: + + f. The multipart MIME payloads (section 3.5.1) + g. Mandatory support for "Warning:" headers (section 3.5.2) + h. The SUBSCRIBE and NOTIFY, and UNSUBSCRIBE requests (section + 3.5.3) + i. Require: headers (section 3.5.4) + j. A format for PINT URLS within a PINT request (section 3.5.5) + k. Telephone Network Parameters within PINT URLs (section 3.5.6) + + Section 3.5.8 contains remarks about how BYE requests are used within + PINT. This is not an extension to baseline SIP; it is included here + only for clarification of the semantics when used with telephone + network sessions. + +3.3. REQUIRED and OPTIONAL elements for PINT compliance + + Of these, only the TN network type (with its associated RFC2543 + address type) and the "require" attribute MUST be supported by PINT + 1.0 clients and servers. In practice, most PINT service requests will + use other changes, of which references to Data Objects in requests + are most likely to appear in PINT requests. + + Each of the other new PINT constructs enables a different function, + and a client or server that wishes to enable that particular function + MUST do so by the construct specified in this document. For example, + building a PINT client and server that provide only the Request-to- + Call telephone call service, without support for the other Milestone + services, is allowed. + + The "Require:" SIP header and the "require" attribute provide a + mechanism that can be used by clients and servers to signal their + need and/or ability to support specific "new" PINT protocol elements. + + + + + +Petrack & Conroy Standards Track [Page 11] + +RFC 2848 The PINT Service Protocol June 2000 + + + It should be noted that many optional features of SIP and SDP make + sense as specified in the PINT context. One example is the SDP + a=lang: attribute, which can be used to describe the preferred + language of the callee. Another example is the use of the "t=" + parameter to indicate that the time at which the PINT service is to + be invoked. This is the normal use of the "t=" field. A third example + is the quality attributes. Any SIP or SDP option or facility is + available to PINT clients and servers without change. + + Conversely, support for Data Objects within Internet Conference + sessions may be useful, even if the aim is not to provide a GSTN + service request. In this case, the extensions covering these items + may be incorporated into an otherwise "plain" SIP/SDP invitation. + Likewise, support for SDP "require" may be useful, as a framework for + addition of features to a "traditional" SIP/SDP infrastructure. + Again, these may be convenient to incorporate into SIP/SDP + implementations that would not be used for PINT service requests. + Such additions are beyond the scope of this document, however. + +3.4. PINT Extensions to SDP + + PINT 1.0 adds to SDP the possibility to describe audio, fax, and + pager telephone sessions. It is deliberately designed to hide the + underlying technical details and complexity of the telephone network. + The only network type defined for PINT is the generic "TN" (Telephone + Network). More precise tags such as "ISDN", "GSM", are not defined. + Similarly, the transport protocols are designated simply as "fax", + "voice", and "pager"; there are no more specific identifiers for the + various telephone network voice, fax, or pager protocols. Similarly, + the data to be transported are identified only by a MIME content + type, such as "text" data, "image" data, or some more general + "application" data. An important example of transporting + "application" data is the milestone service "Voice Access to Web + Content". In this case the data to be transported are pointed to by a + URI, the data content type is application/URI, and the transport + protocol would be "voice". Some sort of speech-synthesis facility, + speaking out to a Phone, will have to be invoked to perform this + service. + + This section gives details of the new SDP keywords. + +3.4.1. Network Type "TN" and Address Type "RFC2543" + + The TN ("Telephone Network") network type is used to indicate that + the terminal is connected to a telephone network. + + The address types allowed for network type TN are "RFC2543" and + private address types, which MUST begin with an "X-". + + + +Petrack & Conroy Standards Track [Page 12] + +RFC 2848 The PINT Service Protocol June 2000 + + + Address type RFC2543 is followed by a string conforming to a subset + of the "telephone-subscriber" BNF specified in figure 4 of SIP [1]). + Note that this BNF is NOT identical to the BNF that defines the + "phone-number" within the "p=" field of SDP. + + Examples: + + c= TN RFC2543 +1-201-406-4090 + + c= TN RFC2543 12014064090 + + A telephone-subscriber string is of one of two types: global-phone- + number or local-phone-number. These are distinguished by preceeding + a global-phone-number with a "plus" sign ("+"). A global-phone-number + is by default to be interpreted as an internationally significant + E.164 Number Plan Address, as defined by [6], whilst a local-phone- + number is a number specified in the default dialling plan within the + context of the recipient PINT Gateway. + + An implementation MAY use private addressing types, which can be + useful within a local domain. These address types MUST begin with an + "X-", and SHOULD contain a domain name after the X-, e.g. "X- + mytype.mydomain.com". An example of such a connection line is as + follows: + + c= TN X-mytype.mydomain.com A*8-HELEN + + where "X-mytype.mydomain.com" identifies this private address type, + and "A*8-HELEN" is the number in this format. Such a format is + defined as an "OtherAddr" in the ABNF of Appendix A. Note that most + dialable telephone numbers are expressable as local-phone-numbers + within address RFC2543; new address types SHOULD only be used for + formats which cannot be so written. + +3.4.2. Support for Data Objects within PINT + + One significant change over traditional SIP/SDP Internet Conference + sessions with PINT is that a PINT service request may refer to a Data + Object to be used as source information in that request. For example, + a PINT service request may specify a document to be processed as part + of a GSTN service by which a Fax is sent. Similarly, a GSTN service + may be take a Web page and result in a vocoder processing that page + and speaking the contents over a telephone. + + The SDP specification does not have explicit support for reference to + or carriage of Data Objects within requests. In order to use SDP for + PINT, there is a need to describe such media sessions as "a telephone + + + + +Petrack & Conroy Standards Track [Page 13] + +RFC 2848 The PINT Service Protocol June 2000 + + + call to a certain number during which such-and-such an image is sent + as a fax". + + To support this, two extensions to the session description format are + specified. These are some new allowed values for the Media Field, and + a description of the "fmtp" parameter when used with the Media Field + values (within the context of the Contact Field Network type "TN"). + + An addition is also made to the SIP message format to allow the + inclusion of data objects as sub-parts within the request message + itself. The original SDP syntax (from [2]) for media-field is given + as: + + media-field = "m=" media space port ["/" integer] + space proto 1*(space fmt) CRLF + + When used within PINT requests, the definition of the sub-fields is + expanded slightly. The Media sub-field definition is relaxed to + accept all of the discrete "top-level" media types defined in [4]. In + the milestone services the discrete type "video" is not used, and the + extra types "data" and "control" are likewise not needed. The use of + these types is not precluded, but the behaviour expected of a PINT + Gateway receiving a request including such a type is not defined + here. + + The Port sub-field has no meaning in PINT requests as the destination + terminals are specified using "TN" addressing, so the value of the + port sub-field in PINT requests is normally set to "1". A value of + "0" may be used as in SDP to indicate that the terminal is not + receiving media. This is useful to indicate that a telephone + terminal has gone "on hold" temporarily. Likewise, the optional + integer sub-field is not used in PINT. + + As mentioned in [2], the Transport Protocol sub-field is specific to + the associated Address Type. In the case that the Address Type in the + preceeding Contact field is one of those defined for use with the + Network Type "TN", the following values are defined for the Transport + Protocol sub-field: + + "voice", "fax", and "pager". + + The interpretation of this sub-field within PINT requests is the + treatment or disposition of the resulting GSTN service. Thus, for + transport protocol "voice", the intent is that the service will + result in a GSTN voice call, whilst for protocol "fax" the result + will be a GSTN fax transmission, and protocol "pager" will result in + a pager message being sent. + + + + +Petrack & Conroy Standards Track [Page 14] + +RFC 2848 The PINT Service Protocol June 2000 + + + Note that this sub-field does not necessarily dictate the media type + and subtype of any source data; for example, one of the milestone + services calls for a textual source to be vocoded and spoken in a + resulting telephone service call. The transport protocol value in + this case would be "voice", whilst the media type would be "text". + + The Fmt sub-field is described in [2] as being transport protocol- + specific. When used within PINT requests having one of the above + protocol values, this sub-field consists of a list of one or more + values, each of which is a defined MIME sub-type of the associated + Media sub-field value. The special value "-" is allowed, meaning that + there is no MIME sub-type. This sub-field retains (from [2]) its + meaning that the list will contain a set of alternative sub-types, + with the first being the preferred value. + + For experimental purposes and by mutual consent of the sender and + recipient, a sub-type value may be specified as an , i.e. a + character string starting with "X-". The use of such values is + discouraged, and if such a value is expected to find common use then + it SHOULD be registered with IANA using the standard content type + registration process (see Appendix C). + + When the Fmt parameter is the single character "-" ( a dash ), this + is interpreted as meaning that a unspecified or default sub-type can + be used for this service. Thus, the media field value "m=audio 1 + voice -" is taken to mean that a voice call is requested, using + whatever audio sub type is deemed appropriate by the Executive + System. PINT service is a special case, in that the request comes + from the IP network but the service call is provided within the GSTN. + Thus the service request will not normally be able to define the + particular codec used for the resulting GSTN service call. If such an + intent IS required, then the quality attribute may be used (see + "Suggested Attributes" section of [2]). + +3.4.2.1. Use of fmtp attributes in PINT requests + + For each element of the Fmt sub-field, there MUST be a following fmtp + attribute. When used within PINT requests, the fmtp attribute has a + general structure as defined here: + + "a=fmtp:" resolution + *( resolution) + ( ";" 1() + *( )) + where: + := ( | | ) + + + + + +Petrack & Conroy Standards Track [Page 15] + +RFC 2848 The PINT Service Protocol June 2000 + + + A fmtp attribute describes the sources used with a given Fmt entry in + the Media field. The entries in a Fmt sub-field are alternatives + (with the preferred one first in the list). Each entry will have a + matching fmtp attribute. The list of resolutions in a fmtp attribute + describes the set of sources that resolve the matching Fmt choice; + all elements of this set will be used. + + It should be noted that, for use in PINT services, the elements in + such a set will be sent as a sequence; it is unlikely that trying to + send them in parallel would be successful. + + A fmtp attribute can contain a mixture of different kinds of element. + Thus an attribute might contain a sub-part-ref indicating included + data held in a sub-part of the current message, followed by an + opaque-ref referring to some content on the GSTN, followed by a uri- + ref pointing to some data held externally on the IP network. + + To indicate which form each resolution element takes, each of them + starts with its own literal tag. The detailed syntax of each form is + described in the following sub-sections. + +3.4.2.2. Support for Remote Data Object References in PINT + + Where data objects stored elsewhere on the IP Network are to be used + as sources for processing within a PINT service, they may be referred + to using the uri-ref form. This is simply a Uniform Resource + Identifier (URI), as described in [9]. + + Note that the reference SHOULD be an absolute URI, as there may not + be enough contextual information for the recipient server to resolve + a relative reference; any use of relative references requires some + private agreement between the sender and recipient of the message, + and SHOULD be avoided unless the sender can be sure that the + recipient is the one intended and the reference is unambiguous in + context. + + This also holds for partial URIs (such + as"uri:http://aNode/index.htm") as these will need to be resolved in + the context of the eventual recipient of the message. + + The general syntax of a reference to an Internet-based external data + object in a fmtp line within a PINT session description is: + + := ("uri:" URI-reference) + + where URI-reference is as defined in Appendix A of [9] + + + + + +Petrack & Conroy Standards Track [Page 16] + +RFC 2848 The PINT Service Protocol June 2000 + + + For example: + + c= TN RFC2543 +1-201-406-4090 + m= text 1 fax plain + a=fmtp:plain uri:ftp://ftp.isi.edu/in-notes/rfc2468.txt + or: + c= TN RFC2543 +1-201-406-4090 + m= text 1 fax plain + a=fmtp:plain + uri:http://www.ietf.org/meetings/glance_minneapolis.txt + + means get this data object from the Internet and use it as a source + for the requested GSTN Fax service. + +3.4.2.3. Support for GSTN-based Data Objects in PINT + + PINT services may refer to data that are held not on the IP Network + but instead within the GSTN. The way in which these items are + indicated need have no meaning within the context of the Requestor or + the PINT Gateway; the reference is merely some data that may be used + by the Executive System to indicate the content intended as part of + the request. These data form an opaque reference, in that they are + sent "untouched" through the PINT infrastructure. + + A reference to some data object held on the GSTN has the general + definition: + + := ("opr:" *uric) + + where uric is as defined in Appendix A of [9]. + + For example: + + c= TN RFC2543 +1-201-406-4090 + m= text 1 fax plain + a=fmtp:plain opr:APPL.123.456 + + means send the data that is indexed ON THE GSTN by the reference + value "APPL.123.456" to the fax machine on +1-201-406-4090. The + Executive System may also take the Telephone URL held in the To: + field of the enclosing SIP message into account when deciding the + context to be used for the data object dereference. + + Of course, an opaque reference may also be used for other purposes; + it could, for example, be needed to authorise access to a document + held on the GSTN rather than being required merely to disambiguate + + + + + +Petrack & Conroy Standards Track [Page 17] + +RFC 2848 The PINT Service Protocol June 2000 + + + the data object. The purpose to which an opaque reference is put, + however, is out of scope for this document. It is merely an indicator + carried within a PINT Request. + + An opaque reference may have no value in the case where the value to + be used is implicit in the rest of the request. For example, suppose + some company wishes to use PINT to implement a "fax-back service". In + their current implementation, the image(s) to be faxed are entirely + defined by the telephone number dialled. Within the PINT request, + this telephone number would appear within the "To:" field of the PINT + request, and so there is no need for an opaque reference value. + + If there are several resolutions for a PINT Service Request, and one + of these is an opaque reference with no value, then that opaque + reference MUST be included in the attribute line, but with an empty + value field. + + For example: + + c= TN RFC2543 +1-201-406-4090 + m= text 1 fax plain + a=fmtp:plain uri:http://www.sun.com/index.html opr: + + might be used to precede some data to be faxed with a covering note. + + In the special case where an opaque reference is the sole resolution + of a PINT Service Request, AND that reference needs no value, there + is no need for a Fmt list at all; the intent of the service is + unambiguous without any further resolution. + + For example: + + c= TN RFC2543 +1-201-406-4090 + m= text 1 fax - + + means that there is an implied content stored on the GSTN, and that + this is uniquely identified by the combination of SIP To-URI and the + Contact field of the session description. + +3.4.2.4. Session Description support for included Data Objects + + As an alternative to pointing to the data via a URI or an opaque + reference to a data item held on the GSTN, it is possible to include + the content data within the SIP request itself. This is done by using + multipart MIME for the SIP payload. The first MIME part contains the + SDP description of the telephone network session to be executed. The + other MIME parts contain the content data to be transported. + + + + +Petrack & Conroy Standards Track [Page 18] + +RFC 2848 The PINT Service Protocol June 2000 + + + Format specific attribute lines within the session description are + used to indicate which other MIME part within the request contains + the content data. Instead of a URI or opaque reference, the format- + specific attribute indicates the Content-ID of the MIME part of the + request that contains the actual data, and is defined as: + + := ("spr:" Content-ID) + + where Content-ID is as defined in Appendix A of [3] and in [10]). + + For example: + + c= TN RFC2543 +1-201-406-4090 + m= text 1 fax plain + a=fmtp:plain spr: + + The parameter is the Content-ID of one of the MIME parts + inside the message, and this fragment means that the requesting user + would like the data object held in the sub-part of this message + labelled to be faxed to the machine at phone number +1- + 201-406-4090. + + See also section 3.5.1 for a discussion on the support needed in the + enclosing SIP request for included data objects. + +3.4.3. Attribute Tags to pass information into the Telephone Network + + It may be desired to include within the PINT request service + parameters that can be understood only by some entity in the + "Telephone Network Cloud". SDP attribute parameters are used for this + purpose. They MAY appear within a particular media description or + outside of a media description. + + These attributes may also appear as parameters within PINT URLS (see + section 3.5.6) as part of a SIP request. + + This is necessary so that telephone terminals that require the + attributes to be defined can appear within the To: line of a PINT + request as well as within PINT session descriptions. + + The purpose of these attributes is to allow the client to specify + extra context within which a particular telephone number is to be + interpreted. There are many reasons why extra context might be + necessary to interpret a given telephone number: + + + + + + + +Petrack & Conroy Standards Track [Page 19] + +RFC 2848 The PINT Service Protocol June 2000 + + + a. The telephone number might be reachable in many different ways + (such as via competing telephone service providers), and the + PINT client wishes to indicate its selection of service + provider. + b. The telephone number might be reachable only from a limited + number of networks (such as an '800' freephone number). + c. The telephone number might be reachable only within a single + telephone network (such as the '152' customer service number of + BT). Similarly, the number might be an internal corporate + extension reachable only within the PBX. + + However, as noted above, it is not usually necessary to use SDP + attributes to specify the phone context. URLs such as + 152@pint.bt.co.il within the To: and From: headers and/or Request- + URI, normally offer sufficient context to resolve telephone numbers. + + If the client wishes the request to fail if the attributes are not + supported, these attributes SHOULD be used in conjunction with the + "require" attribute (section 3.4.4) and the + "Require:org.ietf.sdp.require" header (section 3.5.4). + + It is not possible to standardise every possible internal telephone + network parameter. PINT 1.0 attributes have been chosen for + specification because they are common enough that many different PINT + systems will want to use them, and therefore interoperability will be + increased by having a single specification. + + Proprietary attribute "a=" lines, that by definition are not + interoperable, may be nonetheless useful when it is necessary to + transport some proprietary internal telephone network variables over + the IP network, for example to identify the order in which service + call legs are to be be made. These private attributes SHOULD BE, + however, subject to the same IANA registration procedures mentioned + in the SDP specification[2] (see also this Appendix C). + +3.4.3.1. The phone-context attribute + + An attribute is specified to enable "remote local dialling". This is + the service that allows a PINT client to reach a number from far + outside the area or network that can usually reach the number. It is + useful when the sending or receiving address is only dialable within + some local context, which may be remote to the origin of the PINT + client. + + For example, if Alice wanted to report a problem with her telephone, + she might then dial a "network wide" customer care number; within the + British Telecom network in the U.K., this is "152". Note that in this + case she doesn't dial any trunk prefix - this is the whole dialable + + + +Petrack & Conroy Standards Track [Page 20] + +RFC 2848 The PINT Service Protocol June 2000 + + + number. If dialled from another operator's network, it will not + connect to British Telecom's Engineering Enquiries service; and + dialling "+44 152" will not normally succeed. Such numbers are called + Network-Specific Service Numbers. + + Within the telephone network, the "local context" is provided by the + physical connection between the subscriber's terminal and the central + office. An analogous association between the PINT client and the PINT + server that first receives the request may not exist, which is why it + may be necessary to supply this missing "telephone network context". + This attribute is defined as follows: + + a=phone-context: + phone-context-ident = network-prefix / private-prefix + network-prefix = intl-network-prefix / local-network-prefix + intl-network-prefix = "+" 1*DIGIT + local-network-prefix = 1*DIGIT + excldigandplus = (0x21-0x2d,0x2f,0x40-0x7d)) + private-prefix = 1*excldigandplus 0*uric + + An intl-network-prefix and local-network-prefix MUST be a bona fide + network prefix, and a network-prefix that is an intl-network-prefix + MUST begin with an E.164 service code ("country code"). + + It is possible to register new private-prefixes with IANA so as to + avoid collisions. Prefixes that are not so registered MUST begin with + an "X-" to indicate their private, non-standard nature (see Appendix + C). + + Example 1: + + c= TN RFC2543 1-800-765-4321 + a=phone-context:+972 + + This describes an terminal whose address in Israel (E.164 country + code 972) is 1-800-765-4321. + + Example 2: + + c= TN RFC2543 1-800-765-4321 + a=phone-context:+1 + + This describes an terminal whose address in North America (E.164 + country code 1) is 1-800-765-4321. + + The two telephone terminals described by examples 1 and 2 are + different; in fact they are located in different countries. + + + + +Petrack & Conroy Standards Track [Page 21] + +RFC 2848 The PINT Service Protocol June 2000 + + + Example 3: + + c=TN RFC2543 123 + a=phone-context:+97252 + + This describes a terminal whose address when dialled from within the + network identified by +97252 is the string "123". It so happens that + +97252 defines one of the Israeli cell phone providers, and 123 + reaches customer service when dialled within that network. + + It may well be useful or necessary to use the SDP "require" parameter + in conjunction with the phone-context attribute. + + Example 4: + + c= TN RFC2543 321 + a=phone-context:X-acme.com-23 + + This might describe the telephone terminal that is at extension 321 + of PBX number 23 within the acme.com private PBX network. It is + expected that such a description would be understandable by the + acme.com PINT server that receives the request. + + Note that if the PINT server receiving the request is inside the + acme.com network, the same terminal might be addressable as follows: + + c= TN RFC2543 7-23-321 + + (assuming that "7" is dialled in order to reach the private PBX + network from within acme.com) + +3.4.3.2. Presentation Restriction attribute + + Although it has no affect on the transport of the service request + through the IP Network, there may be a requirement to allow + originators of a PINT service request to indicate whether or not they + wish the "B party" in the resulting service call to be presented with + the "A party's" calling telephone number. It is a legal requirement + in some jurisdictions that a caller be able to select whether or not + their correspondent can find out the calling telephone number (using + Automatic Number Indication or Caller Display or Calling Line + Identity Presentation equipment). Thus an attribute may be needed to + indicate the originator's preference. + + Whether or not the default behaviour of the Executive System is to + present or not present a party's telephone number to the + correspondent GSTN terminal is not specified, and it is not mandatory + in all territories for a PINT Gateway or Executive System to act on + + + +Petrack & Conroy Standards Track [Page 22] + +RFC 2848 The PINT Service Protocol June 2000 + + + this attribute. It is, however, defined here for use where there are + regulatory restrictions on GSTN operation, and in that case the + Executive System can use it to honour the originator's request. + + The attribute is specified as follows: + a=clir:<"true" | "false"> + + This boolean value is needed within the attribute as it may be that + the GSTN address is, by default, set to NOT present its identity to + correspondents, and the originator wants to do so for this particular + call. It is in keeping with the aim of this attribute to allow the + originator to specify what treatment they want for the requested + service call. + + The expected interpretation of this attribute is that, if it is + present and the value is "false" then the Calling Line Identity CAN + be presented to the correspondent terminal, whilst if it is "true" + then if possible the Executive System is requested to NOT present the + Calling Line Identity. + +3.4.3.3. ITU-T CalledPartyAddress attributes parameters + + These attributes correspond to fields that appear within the ITU-T + Q.763 "CalledPartyAddress" field (see [8] ,section 3.9). PINT clients + use these attributes in order to specify further parameters relating + to Terminal Addresses, in the case when the address indicates a + "local-phone-number". In the case that the PINT request contains a + reference to a GSTN terminal, the parameters may be required to + correctly identify that remote terminal. + + The general form of this attribute is: "a=Q763-((":" ) + |"")". Three of the possible elements and their use in SDP + attributes are described here. Where other Q763 elements are to be + used, then these should be the subject of further specification to + define the syntax of the attribute mapping. It is recommended that + any such specification maintains the value sets shown in Q.763. + + The defined attributes are: + + a=Q763-nature: - indicates the "nature of address indicator". + The value MAY be any number between 0 and 127. + The following values are specified: + + "1" a subscriber number + "2" unknown + "3" a nationally significant number + "4" an internationally significant number + + + + +Petrack & Conroy Standards Track [Page 23] + +RFC 2848 The PINT Service Protocol June 2000 + + + The values have been chosen to coincide with the values in Q.763. + Note that other values are possible, according to national rules or + future expansion of Q.763. + + a=Q763-plan: - indicates the numbering plan to which the address + belongs. The value MAY be any number between 0 + and 7. The following values are specified: + + "1" Telephone numbering plan (ITU-T E.164) + "3" Data numbering plan (ITU-T X.121) + "4" Telex numbering plan (ITU-T F.69) + + The values have been chosen to coincide with the values in Q.763. + Other values are allowed, according to national rules or future + expansion of Q.763. + + a=Q763-INN - indicates if routing to the Internal Network Number + is allowed. The value MUST be ONE of: + + "0" routing to internal network number allowed + "1" routing to internal network number not + allowed + + The values have been chosen to coincide with the values in Q.763. + Note that it is possible to use a local-phone-number and indicate via + attributes that the number is in fact an internationally significant + E.164 number. Normally this SHOULD NOT be done; an internationally + significant E.164 number is indicated by using a "global-phone- + number" for the address string. + +3.4.4. The "require" attribute + + According to the SDP specification, a PINT server is allowed simply + to ignore attribute parameters that it does not understand. In order + to force a server to decline a request if it does not understand one + of the PINT attributes, a client SHOULD use the "require" attribute, + specified as follows: + + a=require: + + where the attribute-list is a comma-separated list of attributes that + appear elsewhere in the session description. + + In order to process the request successfully the PINT server must + BOTH understand the attribute AND ALSO fulfill the request implied by + the presence of the attribute, for each attribute appearing within + the attribute-list of the require attribute. + + + + +Petrack & Conroy Standards Track [Page 24] + +RFC 2848 The PINT Service Protocol June 2000 + + + If the server does not recognise the attribute listed, the PINT + server MUST return an error status code (such as 420 (Bad Extension) + or 400 (Bad Request)), and SHOULD return suitable Warning: lines + explaining the problem or an Unsupported: header containing the + attribute it does not understand. If the server recognizes the + attribute listed, but cannot fulfill the request implied by the + presence of the attribute, the request MUST be rejected with a status + code of (606 Not Acceptable), along with a suitable Unsupported: + header or Warning: line. + + The "require" attribute may appear anywhere in the session + description, and any number of times, but it MUST appear before the + use of the attribute marked as required. + + Since the "require" attribute is itself an attribute, the SIP + specification allows a server that does not understand the require + attribute to ignore it. In order to ensure that the PINT server will + comply with the "require" attribute, a PINT client SHOULD include a + Require: header with the tag "org.ietf.sdp.require" (section 3.5.4) + + Note that the majority of the PINT extensions are "tagged" and these + tags can be included in Require strictures. The exception is the use + of phone numbers in SDP parts. However, these are defined as a new + network and address type, so that a receiving SIP/SDP server should + be able to detect whether or not it supports these forms. The default + behaviour for any SDP recipient is that it will fail a PINT request + if it does not recognise or support the TN and RFC2543 or X-token + network and address types, as without the contents being recognised + no media session could be created. Thus a separate stricture is not + required in this case. + +3.5. PINT Extensions to SIP 2.0 + + PINT requests are SIP requests; Many of the specifications within + this document merely explain how to use existing SIP facilities for + the purposes of PINT. + +3.5.1. Multi-part MIME (sending data along with SIP request) + + A PINT request can contain a payload which is multipart MIME. In this + case the first part MUST contain an SDP session description that + includes at least one of the format specific attribute tags for + "included content data" specified above in section 3.4.3. Subsequent + parts contain content data that may be transferred to the requested + Telephone Call Service. As discussed earlier, within a single PINT + request, some of the data MAY be pointed to by a URI within the + request, and some of the data MAY be included within the request. + + + + +Petrack & Conroy Standards Track [Page 25] + +RFC 2848 The PINT Service Protocol June 2000 + + + Where included data is carried within a PINT service request, the + Content Type entity header of the enclosing SIP message MUST indicate + this. To do so, the media type value within this entity header MUST + be set to a value of "multipart". There is a content sub-type that is + intended for situations like this in which sub-parts are to be + handled together. This is the multipart/related type (defined in + [19]), and it's use is recommended. + + The enclosed body parts SHOULD include the part-specific Content Type + headers as appropriate ("application/sdp" for the first body part + holding the session description, with an appropriate content type for + each of the subsequent, "included data object" parts). This matches + the standard syntax of MIME multipart messages as defined in [4]. + + For example, in a multipart message where the string + + "------next-------" is the boundary, the first two parts might be as + follows: + + ------next------- + Content-Type: application/sdp + .... + c= TN RFC2543 +1-201-406-4090 + m= text 1 pager plain + a=fmtp:plain spr:17@mymessage.acme.com + + ----------next------- + Content-Type: text/plain + Content-ID: 17@mymessage.acme.com + + This is the text that is to be paged to +1-201-406-4090 + + ----------next----------- + + The ability to indicate different alternatives for the content to be + transported is useful, even when the alternatives are included within + the request. For example, a request to send a short message to a + pager might include the message in Unicode [5] and an alternative + version of the same content in text/plain, should the PINT server or + telephone network not be able to process the unicode. + + PINT clients should be extremely careful when sending included data + within a PINT request. Such requests SHOULD be sent via TCP, to avoid + fragmentation and to transmit the data reliably. It is possible that + the PINT server is a proxy server that will replicate and fork the + request, which could be disastrous if the request contains a large + amount of application data. PINT proxy servers should be careful not + to create many copies of a request with large amounts of data in it. + + + +Petrack & Conroy Standards Track [Page 26] + +RFC 2848 The PINT Service Protocol June 2000 + + + If the client does not know the actual location of the PINT gateway, + and is using the SIP location services to find it, and the included + data makes the PINT request likely to be transported in several IP + datagrams, it is RECOMMENDED that the initial PINT request not + include the data object but instead hold a reference to it. + +3.5.2. Warning header + + A PINT server MUST support the SIP "Warning:" header so that it can + signal lack of support for individual PINT features. As an example, + suppose the PINT request is to send a jpeg picture to a fax machine, + but the server cannot retrieve and/or translate jpeg pictures from + the Internet into fax transmissions. + + In such a case the server fails the request and includes a Warning + such as the following: + + Warning: 305 pint.acme.com Incompatible media format: jpeg + + SIP servers that do not understand the PINT extensions at all are + strongly encouraged to implement Warning: headers to indicate that + PINT extensions are not understood. + + Also, Warning: headers may be included within NOTIFY requests if it + is necessary to notify the client about some condition concerning the + invocation of the PINT service (see next). + +3.5.3. Mechanism to register interest in the disposition of a PINT + service, and to receive indications on that disposition + + It can be very useful to find out whether or not a requested service + has completed, and if so whether or not it was successful. This is + especially true for PINT service, where the person requesting the + service is not (necessarily) a party to it, and so may not have an + easy way of finding out the disposition of that service. Equally, it + may be useful to indicate when the service has changed state, for + example when the service call has started. + + Arranging a flexible system to provide extensive monitoring and + control during a service is non-trivial (see section 6.4 for some + issues); PINT 1.0 uses a simple scheme that should nevertheless + provide useful information. It is possible to expand the scheme in a + "backwards compatible" manner, so if required it can be enhanced at a + later date. + + The PINT 1.0 status registration and indication scheme uses three new + methods; SUBSCRIBE, UNSUBSCRIBE, and NOTIFY. These are used to allow + a PINT client to register an interest in (or "subscribe" to) the + + + +Petrack & Conroy Standards Track [Page 27] + +RFC 2848 The PINT Service Protocol June 2000 + + + status of a service request, to indicate that a prior interest has + lapsed (i.e "unsubscribe" from the status), and for the server to + return service indications. The state machine of + SUBSCRIBE/UNSUBSCRIBE is identical to that of INVITE/BYE; just as + INVITE signals the beginning and BYE signals the end of participation + in a media session, SUBSCRIBE signals the beginning and UNSUBSCRIBE + signals the end of participation in a monitoring session. During the + monitoring session, NOTIFY messages are sent to inform the subscriber + of a change in session state or disposition. + +3.5.3.1. Opening a monitoring session with a SUBSCRIBE request + + When a SUBSCRIBE request is sent to a PINT Server, it indicates that + a user wishes to receive information about the status of a service + session. The request identifies the session of interest by including + the original session description along with the request, using the + SDP global-session-id that forms part of the origin-field to identify + the service session uniquely. + + The SUBSCRIBE request (like any other SIP request about an ongoing + session) is sent to the same server as was sent the original INVITE, + or to a server which was specified in the Contact: field within a + subsequent response (this might well be the PINT gateway for the + session). + + Whilst there are situations in which re-use of the Call-ID used in + the original INVITE that initiated the session of interest is + possible, there are other situations in which it is not. In detail, + where the subscription is being made by the user who initiated the + original service request, the Call-ID may be used as it will be known + to the receiver to refer to a previously established session. + However, when the request comes from a user other than the original + requesting user, the SUBSCRIBE request constitutes a new SIP call + leg, so the Call-ID SHOULD NOT be used; the only common identifier is + the origin-field of the session description enclosed within the + original service request, and so this MUST be used. + + Rather than have two different methods of identifying the "session of + interest" the choice is to use the origin-field of the SDP sub-part + included both in the original INVITE and in this SUBSCRIBE request. + + Note that the request MUST NOT include any sub-parts other than the + session description, even if these others were present in the + original INVITE request. A server MUST ignore whatever sub-parts are + included within a SUBSCRIBE request with the sole exception of the + enclosed session description. + + + + + +Petrack & Conroy Standards Track [Page 28] + +RFC 2848 The PINT Service Protocol June 2000 + + + The request MAY contain a "Contact:" header, specifying the PINT User + Agent Server to which such information should be sent. + + In addition, it SHOULD contain an Expires: header, which indicates + for how long the PINT Requestor wishes to receive notification of the + session status. We refer to the period of time before the expiration + of the SUBSCRIBE request as the "subscription period". See section + 5.1.4. for security considerations, particularly privacy + implications. + + A value of 0 within the Expires: header indicates a desire to receive + one single immediate response (i.e. the request expires immediately). + It is possible for a sequence of monitoring sessions to be opened, + exist, and complete, all relating to the same service session. + + A successful response to the SUBSCRIBE request includes the session + description, according to the Gateway. Normally this will be + identical to the last cached response that the Gateway returned to + any request concerning the same SDP global session id (see [2], + section 6, o= field). The t= line may be altered to indicate the + actual start or stop time, however. The Gateway might add an i= line + to the session description to indicate such information as how many + fax pages were sent. The Gateway SHOULD include an Expires: header + indicating how long it is willing to maintain the monitoring session. + If this is unacceptable to the PINT Requestor, then it can close the + session by sending an immediate UNSUBSCRIBE message (see 3.5.3.3). + + In principle, a user might send a SUBSCRIBE request after the + telephone network service has completed. This allows, for example, + checking up "the morning after" to see if the fax was successfully + transmitted. However, a PINT gateway is only required to keep state + about a call for as long as it indicated previously in an Expires: + header sent within the response to the original INVITE message that + triggered the service session, within the response to the SUBSCRIBE + message, within the response to any UNSUBSCRIBE message, or within + its own UNSUBSCRIBE message (but see section 3.5.8, point 3). + + If the Server no longer has a record of the session to which a + Requestor has SUBSCRIBEd, it returns "606 Not Acceptable", along with + the appropriate Warning: 307 header indicating that the SDP session + ID is no longer valid. This means that a requesting Client that knows + that it will want information about the status of a session after the + session terminates SHOULD send a SUBSCRIBE request before the session + terminates. + + + + + + + +Petrack & Conroy Standards Track [Page 29] + +RFC 2848 The PINT Service Protocol June 2000 + + +3.5.3.2. Sending Status Indications with a NOTIFY request + + During the subscription period, the Gateway may, from time to time, + send a spontaneous NOTIFY request to the entity indicated in the + Contact: header of the "opening" SUBSCRIBE request. Normally this + will happen as a result of any change in the status of the service + session for which the Requestor has subscribed. + + The receiving user agent server MUST acknowledge this by returning a + final response (normally a "200 OK"). In this version of the PINT + extensions, the Gateway is not required to support redirects (3xx + codes), and so may treat them as a failure. + + Thus, if the response code class is above 2xx then this may be + treated by the Gateway as a failure of the monitoring session, and in + that situation it will immediately attempt to close the session (see + next). + + The NOTIFY request contains the modified session description. For + example, the Gateway may be able to indicate a more accurate start or + stop time. + + The Gateway may include a Warning: header to describe some problem + with the invocation of the service, and may indicate within an i= + line some information about the telephone network session itself. + + Example: + NOTIFY sip:petrack@pager.com SIP/2.0 + To: sip:petrack@pager.com + From: sip:R2F.pint.com@service.com + Call-ID: 19971205T234505.56.78@pager.com + CSeq: 4711 SUBSCRIBE + Warning: xxx fax aborted, will try for the next hour. + Content-Type:application/sdp + + c=... + i=3 pages of 5 sent + t=... + +3.5.3.3. Closing a monitoring session with an UNSUBSCRIBE request + + At some point, either the Client's representative User Agent Server + or the Gateway may decide to terminate the monitoring session. This + is achieved by sending an UNSUBSCRIBE request to the correspondent + server. Such a request indicates that the sender intends to close + the monitoring session immediately, and, on receipt of the final + response from the receiving server, the session is deemed over. + + + + +Petrack & Conroy Standards Track [Page 30] + +RFC 2848 The PINT Service Protocol June 2000 + + + Note that unlike the SUBSCRIBE request, which is never sent by a PINT + gateway, an UNSUBSCRIBE request can be sent by a PINT gateway to the + User Agent Server to indicate that the monitoring session is closed. + (This is analogous to the fact that a gateway never sends an INVITE, + although it can send a BYE to indicate that a telephone call has + ended.) + + If the Gateway initiates closure of the monitoring session by sending + an UNSUBSCRIBE message, it SHOULD include an "Expires:" header + showing for how much longer after this monitoring session is closed + it is willing to store information on the service session. This acts + as a minimum time within which the Client can send a new SUBSCRIBE + message to open another monitoring session; after the time indicated + in the Expires: header the Gateway is free to dispose of any record + of the service session, so that subsequent SUBSCRIBE requests can be + rejected with a "606" response. + + If the subscription period specified by the Client has expired, then + the Gateway may send an immediate UNSUBSCRIBE request to the Client's + representative User Agent Server. This ensures that the monitoring + session always completes with a UNSUBSCRIBE/response exchange, and + that the representative User Agent Server can avoid maintaining state + in certain circumstances. + +3.5.3.4. Timing of SUBSCRIBE requests + + As it relies on the Gateway having a copy of the INVITEd session + description, the SUBSCRIBE message is limited in when it can be + issued. The Gateway must have received the service request to which + this monitoring session is to be associated, which from the Client's + perspective happens as soon as the Gateway has sent a 1xx response + back to it. + + However, once this has been done, there is no reason why the Client + should not send a monitoring request. It does not have to wait for + the final response from the Gateway, and it can certainly send the + SUBSCRIBE request before sending the ACK for the Service request + final response. Beyond this point, the Client is free to send a + SUBSCRIBE request when it decides, unless the Gateway's final + response to the initial service request indicated a short Expires: + time. + + However, there are good reasons (see 6.4) why it may be appropriate + to start a monitoring session immediately before the service is + confirmed by the PINT Client sending an ACK. At this point the + Gateway will have decided whether or not it can handle the service + request, but will not have passed the request on to the Executive + System. It is therefore in a good position to ask the Executive + + + +Petrack & Conroy Standards Track [Page 31] + +RFC 2848 The PINT Service Protocol June 2000 + + + System to enable monitoring when it sends the service request + onwards. In practical implementations, it is likely that more + information on transient service status will be available if this is + indicated as being important BEFORE or AS the service execution phase + starts; once execution has begun the level of information that can be + returned may be difficult to change. + + Thus, whilst it is free to send a SUBSCRIBE request at any point + after receiving an Interim response from the Gateway to its service + request, it is recommended that the Client should send such a + monitoring request immediately prior to sending an ACK message + confirming the service if it is interested in transient service + status messages. + +3.5.4. The "Require:" header for PINT + + PINT clients use the Require: header to signal to the PINT server + that a certain PINT extension of SIP is required. PINT 1.0 defines + two strings that can go into the Require header: + + org.ietf.sip.subscribe -- the server can fulfill SUBSCRIBE requests + and associated methods (see section 3.5.3) + + org.ietf.sdp.require -- the PINT server (or the SDP parser + associated to it) understands the "require" + attribute defined in (section 3.4.4) + + Example: + Require:org.ietf.sip.subscribe,org.ietf.sdp.require + + A client SHOULD only include a Require: header where it truly + requires the server to reject the request if the option is not + supported. + +3.5.5. PINT URLs within PINT requests + + Normally the hostnames and domain names that appear in the PINT URLs + are the internal affair of each individual PINT system. A client uses + the appropriate SDP payload to indicate the particular service it + wishes to invoke; it is not necessary to use a particular URL to + identify the service. + + A PINT URL is used in two different ways within PINT requests: within + the Request-URI, and within the To: and From: headers. Use within the + Request-URI requires clarification in order to ensure smooth + interworking with the Telephone Network serviced by the PINT + infrastructure, and this is covered next. + + + + +Petrack & Conroy Standards Track [Page 32] + +RFC 2848 The PINT Service Protocol June 2000 + + +3.5.5.1. PINT URLS within Request-URIs + + There are some occasions when it may be useful to indicate service + information within the URL in a standardized way: + + a. it may not be possible to use SDP information to route the + request if it is encrypted; + b. it allows implementation that make use of I.N. "service + indicators"; + c. It enables multiple competing PINT gateways to REGISTER with a + single "broker" server (proxy or redirect) (see section 6.3) + + For these reasons, the following conventions for URLs are offered for + use in PINT requests: + + 1. The user portion of a sip URL indicates the service to be + requested. At present the following services are defined: + + R2C (for Request-to-Call) + R2F (for Request-to-Fax) + R2HC (for Request-to-Hear-Content) + + The user portions "R2C", "R2F", and "R2HC" are reserved for the PINT + milestone services. Other user portions MUST be used in case the + requested service is not one of the Milestone services. See section + 6.2 for some related considerations concerning registrations by + competing PINT systems to a single PINT proxy server acting as a + service broker. + + 2. The host portion of a sip URL contains the domain name of the PINT + service provider. + + 3. A new url-parameter is defined to be "tsp" (for "telephone service + provider"). This can be used to indicate the actual telephone network + provider to be used to fulfill the PINT request. + + Thus, for example:- + INVITE sip:R2C@pint.pintservice.com SIP/2.0 + INVITE sip:R2F@pint.pintservice.com;tsp=telco.com SIP/2.0 + INVITE sip:R2HC@pint.mycom.com;tsp=pbx23.mycom.com SIP/2.0 + INVITE sip:13@pint.telco.com SIP/2.0 + +3.5.6. Telephony Network Parameters within PINT URLs + + Any legal SIP URL can appear as a PINT URL within the Request-URI or + To: header of a PINT request. But if the address is a telephone + address, we indicated in section 3.4.3 that it may be necessary to + include more information in order correctly to identify the remote + + + +Petrack & Conroy Standards Track [Page 33] + +RFC 2848 The PINT Service Protocol June 2000 + + + telephone terminal or service. PINT clients MAY include these + attribute tags within PINT URLs if they are necessary or a useful + complement to the telephone number within the SIP URL. These + attribute tags MUST be included as URL parameters as defined in [1] + (i.e. in the semi-colon separated manner). + + The following is an example of a PINT URL containing extra attribute + tags: + +sip:+9725228808@pint.br.com;user=phone;require=Q763-plan;a=Q763-plan:4 + + As we noted in section 3.4.3, these extra attribute parameters will + not normally be needed within a URL, because there is a great deal of + context available to help the server interpret the phone number + correctly. In particular, there is the SIP URL within the To: header, + and there is also the Request-URI. In most cases this provides + sufficient information for the telephone network. + + The SDP attributes defined in section 3 above will normally only be + used when they are needed to supply necessary context to identify a + telephone terminal. + +3.5.7. REGISTER requests within PINT + + A PINT gateway is a SIP user agent server. A User Agent Server uses + the REGISTER request to tell a proxy or redirect server that it is + available to "receive calls" (i.e. to service requests). Thus a PINT + Gateway registers with a proxy or redirect server the service that is + accessible via itself, whilst in SIP, a user is registering his/her + presence at a particular SIP Server. + + There may be competing PINT servers that can offer the same PINT + service trying to register at a single PINT server. The PINT server + might act as a "broker" among the various PINT gateways that can + fulfill a request. A format for PINT URLs was specified in section + 3.5.5 that enables independent PINT systems to REGISTER an offer to + provide the same service. The registrar can apply its own mechanisms + and policies to decide how to respond to INVITEs from clients seeking + service (See section 6.3 for some possible deployment options). There + is no change between SIP and PINT REGISTER semantics or syntax. + + Of course, the information in the PINT URLs within the REGISTER + request may not be sufficient to completely define the service that a + gateway can offer. The use of SIP and SDP within PINT REGISTER + requests to enable a gateway to specify in more detail the services + it can offer is the subject of future study. + + + + + +Petrack & Conroy Standards Track [Page 34] + +RFC 2848 The PINT Service Protocol June 2000 + + +3.5.8. BYE Requests in PINT + + The semantics of BYE requests within PINT requires some extra + precision. One issue concerns conferences that "cannot be left", and + the other concerns keeping call state after the BYE. + + The BYE request [1] is normally used to indicate that the originating + entity no longer wishes to be involved in the specified call. The + request terminates the call and the media session. Applying this + model to PINT, if a PINT client makes a request that results in + invocation of a telephone call from A to B, a BYE request from the + client, if accepted, should result in a termination of the phone + call. + + One might expect this to be the case if the telephone call has not + started when the BYE request is received. For example, if a request + to fax is sent with a t= line indicating that the fax is to be sent + tomorrow at 4 AM, the requestor might wish to cancel the request + before the specified time. + + However, even if the call has yet to start, it may not be possible to + terminate the media session on the telephone system side. For + example, the fax call may be in progress when the BYE arrives, and + perhaps it is just not possible to cancel the fax in session. Another + possibility is that the entire telephone-side service might be + completed before the BYE is received. In the above Request-to-Fax + example, the BYE might be sent the following morning, and the entire + fax has been sent before the BYE was received. It is too late to send + the BYE. + + In the case where the telephone network cannot terminate the call, + the server MUST return a "606 Not Acceptable" response to the BYE, + along with a session description that indicates the telephone network + session that is causing the problem. + + Thus, in PINT, a "Not Acceptable" response MAY be returned both to + INVITE and BYE requests. It indicates that some aspect of the session + description makes the request unacceptable. + + By allowing a server to return a "Not Acceptable" response to BYE + requests, we are not changing its semantics, just enlarging its use. + + A combination of Warning: headers and i= lines within the session + description can be used to indicate the precise nature of the + problem. + + + + + + +Petrack & Conroy Standards Track [Page 35] + +RFC 2848 The PINT Service Protocol June 2000 + + + Example: + + SIP/2.0 606 Not Acceptable + From: ... + To: ....... + ..... + Warning: 399 pint.mycom.com Fax in progress, service cannot be + aborted + Content-Type: application/sdp + Content-Length: ... + + v=0 + ... + ... + i=3 of 5 pages sent OK + c=TN RFC2543 +12014064090 + m=image 1 fax tif + a=fmtp:tif uri:http://tifsRus.com/yyyyyy.tif + + Note that the server might return an updated session description + within a successful response to a BYE as well. This can be used, for + example, to indicate the actual start times and stop times of the + telephone session, or how many pages were sent in the fax + transmission. + + The second issue concerns how long must a server keep call state + after receiving a BYE. A question arises because other clients might + still wish to send queries about the telephone network session that + was the subject of the PINT transaction. Ordinary SIP semantics have + three important implications for this situation: + + 1. A BYE indicates that the requesting client will clear out all call + state as soon as it receives a successful response. A client SHOULD + NOT send a SUBSCRIBE request after it has sent a BYE. + + 2. A server may return an Expires: header within a successful + response to a BYE request. This indicates for how long the server + will retain session state about the telephone network session. At any + point during this time, a client may send a SUBSCRIBE request to the + server to learn about the session state (although as explained in the + previous paragraph, a client that has sent a BYE will not normally + send a SUBSCRIBE). + + 3. When engaged in a SUBSCRIBE/NOTIFY monitoring session, PINT + servers that send UNSUBSCRIBE to a URL listed in the Contact: header + of a client request SHOULD not clear session state until after the + successful response to the UNSUBSCRIBE message is received. For + example, it may be that the requesting client host is turned off (or + + + +Petrack & Conroy Standards Track [Page 36] + +RFC 2848 The PINT Service Protocol June 2000 + + + in a low power mode) when the telephone service is executed (and is + therefore not available at the location previously specified in the + Contact: attribute) to receive the PINT server's UNSUBSCRIBE. Of + course, it is possible that the UNSUBSCRIBE request will simply time + out. + +4. Examples of PINT Requests and Responses + +4.1. A request to a call center from an anonymous user to receive a + phone call. + + C->S: INVITE sip:R2C@pint.mailorder.com SIP/2.0 + Via: SIP/2.0/UDP 169.130.12.5 + From: sip:anon-1827631872@chinet.net + To: sip:+1-201-456-7890@iron.org;user=phone + Call-ID: 19971205T234505.56.78@pager.com + CSeq: 4711 INVITE + Subject: Sale on Ironing Boards + Content-type: application/sdp + Content-Length: 174 + + v=0 + o=- 2353687637 2353687637 IN IP4 128.3.4.5 + s=R2C + i=Ironing Board Promotion + e=anon-1827631872@chinet.net + t=2353687637 0 + m=audio 1 voice - + c=TN RFC2543 +1-201-406-4090 + + In this example, the context that is required to interpret the To: + address as a telephone number is not given explicitly; it is + implicitly known to the R2C@pint.mailorder.com server. But the + telephone of the person who wishes to receive the call is explicitly + identified as an internationally significant E.164 number that falls + within the North American numbering plan (because of the "+1" within + the c= line). + +4.2. A request from a non anonymous customer (John Jones) to receive a + phone call from a particular sales agent (Mary James) concerning + the defective ironing board that was purchased + + C->S: INVITE sip:marketing@pint.mailorder.com SIP/2.0 + Via: SIP/2.0/UDP 169.130.12.5 + From: sip:john.jones.3@chinet.net + To: sip:mary.james@mailorder.com + Call-ID: 19971205T234505.56.78@pager.com + CSeq: 4712 INVITE + + + +Petrack & Conroy Standards Track [Page 37] + +RFC 2848 The PINT Service Protocol June 2000 + + + Subject: Defective Ironing Board - want refund + Content-type: application/sdp + Content-Length: 150 + + v=0 + o=- 2353687640 2353687640 IN IP4 128.3.4.5 + s=marketing + e=john.jones.3@chinet.net + c= TN RFC2543 +1-201-406-4090 + t=2353687640 0 + m=audio 1 voice - + + The To: line might include the Mary James's phone number instead of a + email-like address. An implementation that cannot accept email-like + URLs in the "To:" header must decline the request with a 606 Not + Acceptable. Note that the sending PINT client "knows" that the PINT + Gateway contacted with the "marketing@pint.mailorder.com" Request-URI + is capable of processing the client request as expected. (see 3.5.5.1 + for a discussion on this). + + Note also that such a telephone call service could be implemented on + the phone side with different details. For example, it might be that + first the agent's phone rings, and then the customer's phone rings, + or it might be that first the customer's phone rings and he hears + silly music until the agent comes on line. If necessary, such service + parameter details might be indicated in "a=" attribute lines within + the session description. The specification of such attribute lines + for service consistency is beyond the scope of the PINT 1.0 + specifications. + +4.3. A request from the same user to get a fax back on how to assemble + the Ironing Board + +C->S: INVITE sip:faxback@pint.mailorder.com SIP/2.0 + Via: SIP/2.0/UDP 169.130.12.5 + From: sip:john.jones.3@chinet.net + To: sip:1-800-3292225@steam.edu;user=phone;phone-context=+1 + Call-ID: 19971205T234505.66.79@chinet.net + CSeq: 4713 INVITE + Content-type: application/sdp + Content-Length: 218 + + v=0 + o=- 2353687660 2353687660 IN IP4 128.3.4.5 + s=faxback + e=john.jones.3@chinet.net + t=2353687660 0 + m=application 1 fax URI + + + +Petrack & Conroy Standards Track [Page 38] + +RFC 2848 The PINT Service Protocol June 2000 + + + c=TN RFC2543 1-201-406-4091 + a=fmtp:URI uri:http://localstore/Products/IroningBoards/2344.html + + In this example, the fax to be sent is stored on some local server + (localstore), whose name may be only resolvable, or that may only be + reachable, from within the IP network on which the PINT server sits. + The phone number to be dialled is a "local phone number" as well. + There is no "phone-context" attribute, so the context (in this case, + for which nation the number is "nationally significant") must be + supplied by the faxback@pint.mailorder.com PINT server. + + If the server that receives it does not understand the number, it + SHOULD decline the request and include a "Network Address Not + Understood" warning. Note that no "require" attribute was used here, + since it is very likely that the request can be serviced even by a + server that does not support the "require" attribute. + +4.4. A request from same user to have that same information read out + over the phone + +C->S: INVITE sip:faxback@pint.mailorder.com SIP/2.0 + Via: SIP/2.0/UDP 169.130.12.5 + From: sip:john.jones.3@chinet.net + To: sip:1-800-3292225@steam.edu;user=phone;phone-context=+1 + Call-ID: 19971205T234505.66.79@chinet.net + CSeq: 4713 INVITE + Content-type: application/sdp + Content-Length: 220 + + v=0 + o=- 2353687660 2353687660 IN IP4 128.3.4.5 + s=faxback + e=john.jones.3@chinet.net + t=2353687660 0 + m=application 1 voice URI + c=TN RFC2543 1-201-406-4090 + a=fmtp:URI uri:http://localstore/Products/IroningBoards/2344.html + +4.5. A request to send an included text page to a friend's pager. + + In this example, the text to be paged out is included in the request. + +C->S: INVITE sip:R2F@pint.pager.com SIP/2.0 + Via: SIP/2.0/UDP 169.130.12.5 + From: sip:scott.petrack@chinet.net + To: sip:R2F@pint.pager.com + Call-ID: 19974505.66.79@chinet.net + CSeq: 4714 INVITE + + + +Petrack & Conroy Standards Track [Page 39] + +RFC 2848 The PINT Service Protocol June 2000 + + + Content-Type: multipart/related; boundary=--next + + ----next + Content-Type: application/sdp + Content-Length: 236 + v=0 + o=- 2353687680 2353687680 IN IP4 128.3.4.5 + s=R2F + e=scott.petrack@chinet.net + t=2353687680 0 + m=text 1 pager plain + c= TN RFC2543 +972-9-956-1867 + a=fmtp:plain spr:2@53655768 + + + ----next + Content-Type: text/plain + Content-ID: 2@53655768 + Content-Length:50 + + Hi Joe! Please call me asap at 555-1234. + + ----next-- + +4.6. A request to send an image as a fax to phone number +972-9-956-1867 + +C->S: INVITE sip:faxserver@pint.vocaltec.com SIP/2.0 + Via: SIP/2.0/UDP 169.130.12.5 + From: sip:scott.petrack@chinet.net + To: sip:faxserver@pint.vocaltec.com + Call-ID: 19971205T234505.66.79@chinet.net + CSeq: 4715 INVITE + Content-type: application/sdp + Content-Length: 267 + + v=0 + o=- 2353687700 2353687700 IN IP4 128.3.4.5 + s=faxserver + e=scott.petrack@chinet.net + t=2353687700 0 + m=image 1 fax tif gif + c= TN RFC2543 +972-9-956-1867 + a=fmtp:tif uri:http://petrack/images/tif/picture1.tif + a=fmtp:gif uri:http://petrack/images/gif/picture1.gif + + + + + + + +Petrack & Conroy Standards Track [Page 40] + +RFC 2848 The PINT Service Protocol June 2000 + + + The image is available as tif or as gif. The tif is the preferred + format. Note that the http server where the pictures reside is local, + and the PINT server is also local (because it can resolve machine + name "petrack") + +4.7. A request to read out over the phone two pieces of content in + sequence. + + First some included text is read out by text-to-speech. Then some + text that is stored at some URI on the internet is read out. + +C->S: INVITE sip:R2HC@pint.acme.com SIP/2.0 + Via: SIP/2.0/UDP 169.130.12.5 + From: sip:scott.petrack@chinet.net + To: sip:R2HC@pint.acme.com + Call-ID: 19974505.66.79@chinet.net + CSeq: 4716 INVITE + Content-Type: multipart/related; boundary=next + + --next + Content-Type: application/sdp + Content-Length: 316 + v=0 + o=- 2353687720 2353687720 IN IP4 128.3.4.5 + s=R2HC + e=scott.petrack@chinet.net + + c= TN RFC2543 +1-201-406-4091 + t=2353687720 0 + m=text 1 voice plain + a=fmtp:plain spr:2@53655768 + m=text 1 voice plain + a=fmtp:plain uri:http://www.your.com/texts/stuff.doc + + --next + Content-Type: text/plain + Content-ID: 2@53655768 + Content-Length: 172 + + Hello!! I am about to read out to you the document you + requested, "uri:http://www.your.com/texts/stuff.doc". + We hope you like acme.com's new speech synthesis server. + --next-- + + + + + + + + +Petrack & Conroy Standards Track [Page 41] + +RFC 2848 The PINT Service Protocol June 2000 + + +4.8. Request for the prices for ISDN to be sent to my fax machine + + INVITE sip:R2FB@pint.bt.co.uk SIP/2.0 + Via: SIP/2.0/UDP 169.130.12.5 + To: sip:0345-12347-01@pint.bt.co.uk;user=phone;phone-context=+44 + From: sip:hank.wangford@newts.demon.co.uk + Call-ID: 19981204T201505.56.78@demon.co.uk + CSeq: 4716 INVITE + Subject: Price List + Content-type: application/sdp + Content-Length: 169 + + v=0 + o=- 2353687740 2353687740 IN IP4 128.3.4.5 + s=R2FB + i=ISDN Price List + e=hank.wangford@newts.demon.co.uk + t=2353687740 0 + m=text 1 fax - + c=TN RFC2543 +44-1794-8331010 + +4.9. Request for a callback + + INVITE sip:R2C@pint.bt.co.uk SIP/2.0 + Via: SIP/2.0/UDP 169.130.12.5 + To: sip:0345-123456@pint.bt.co.uk;user=phone;phone-context=+44 + From: sip:hank.wangford@newts.demon.co.uk + Call-ID: 19981204T234505.56.78@demon.co.uk + CSeq: 4717 INVITE + Subject: It costs HOW much? + Content-type: application/sdp + Content-Length: 176 + + v=0 + o=- 2353687760 2353687760 IN IP4 128.3.4.5 + s=R2C + i=ISDN pre-sales query + e=hank.wangford@newts.demon.co.uk + c=TN RFC2543 +44-1794-8331013 + t=2353687760 0 + m=audio 1 voice - + + + + + + + + + + +Petrack & Conroy Standards Track [Page 42] + +RFC 2848 The PINT Service Protocol June 2000 + + +4.10. Sending a set of information in response to an enquiry + + INVITE sip:R2FB@pint.bt.co.uk SIP/2.0 + Via: SIP/2.0/UDP 169.130.12.5 + To: sip:0345-12347-01@pint.bt.co.uk;user=phone;phone-context=+44 + From: sip:colin.masterton@sales.hh.bt.co.uk + Call-ID: 19981205T234505.56.78@sales.hh.bt.co.uk + CSeq: 1147 INVITE + Subject: Price Info, as requested + Content-Type: multipart/related; boundary=next + + --next + Content-type: application/sdp + Content-Length: 325 + v=0 + o=- 2353687780 2353687780 IN IP4 128.3.4.5 + s=R2FB + i=Your documents + e=colin.masterton@sales.hh.bt.co.uk + t=2353687780 0 + m=application 1 fax octet-stream + c=TN RFC2543 +44-1794-8331010 + a=fmtp:octet-stream uri:http://www.bt.co.uk/imgs/pipr.gif opr: + spr:2@53655768 + + --next + Content-Type: text/plain + Content-ID: 2@53655768 + Content-Length: 352 + + Dear Sir, + Thank you for your enquiry. I have checked availability in your + area, and we can provide service to your cottage. I enclose a + quote for the costs of installation, together with the ongoing + rental costs for the line. If you want to proceed with this, + please quote job reference isdn/hh/123.45.9901. + Yours Sincerely, + Colin Masterton + --next-- + + Note that the "implicit" faxback content is given by an EMPTY opaque + reference in the middle of the fmtp line in this example. + + + + + + + + + +Petrack & Conroy Standards Track [Page 43] + +RFC 2848 The PINT Service Protocol June 2000 + + +4.11. Sportsline "headlines" message sent to your phone/pager/fax + + (i) phone + INVITE sip:R2FB@pint.wwos.skynet.com SIP/2.0 + Via: SIP/2.0/UDP 169.130.12.5 + To: + sip:1-900-123-456-7@wwos.skynet.com;user=phone;phone-context=+1 + From: sip:fred.football.fan@skynet.com + Call-ID: 19971205T234505.56.78@chinet.net + CSeq: 4721 INVITE + Subject: Wonderful World Of Sports NFL Final Scores + Content-type: application/sdp + Content-Length: 220 + + v=0 + o=- 2353687800 2353687800 IN IP4 128.3.4.5 + s=R2FB + i=NFL Final Scores + e=fred.football.fan@skynet.com + c=TN RFC2543 +44-1794-8331013 + t=2353687800 0 + m=audio 1 voice x-pay + a=fmtp:x-pay opr:mci.com/md5: + + (ii) fax + INVITE sip:R2FB@pint.wwos.skynet.com SIP/2.0 + Via: SIP/2.0/UDP 169.130.12.5 + To: sip:1-900-123-456-7@wwos.skynet.com;user=phone; + phone-context=+1 + From: sip:fred.football.fan@skynet.com + Call-ID: 19971205T234505.56.78@chinet.net + CSeq: 4722 INVITE + Subject: Wonderful World Of Sports NFL Final Scores + Content-type: application/sdp + Content-Length: 217 + + v=0 + o=- 2353687820 2353687820 IN IP4 128.3.4.5 + s=R2FB + i=NFL Final Scores + e=fred.football.fan@skynet.com + c=TN RFC2543 +44-1794-8331010 + t=2353687820 0 + m=text 1 fax x-pay + a=fmtp:x-pay opr:mci.com/md5: + + + + + + +Petrack & Conroy Standards Track [Page 44] + +RFC 2848 The PINT Service Protocol June 2000 + + + (iii) pager + INVITE sip:R2FB@pint.wwos.skynet.com SIP/2.0 + Via: SIP/2.0/UDP 169.130.12.5 + To: sip:1-900-123-456-7@wwos.skynet.com;user=phone; + phone-context=+1 + From: sip:fred.football.fan@skynet.com + Call-ID: 19971205T234505.56.78@chinet.net + CSeq: 4723 INVITE + Subject: Wonderful World Of Sports NFL Final Scores + Content-type: application/sdp + Content-Length: 219 + + v=0 + o=- 2353687840 2353687840 IN IP4 128.3.4.5 + s=R2FB + i=NFL Final Scores + e=fred.football.fan@skynet.com + c=TN RFC2543 +44-1794-8331015 + t=2353687840 0 + m=text 1 pager x-pay + a=fmtp:x-pay opr:mci.com/md5: + + Note that these are all VERY similar. + +4.12. Automatically giving someone a fax copy of your phone bill + + INVITE sip:BillsRUs@pint.sprint.com SIP/2.0 + Via: SIP/2.0/UDP 169.130.12.5 + To: sip:+1-555-888-1234@fbi.gov;user=phone + From: sip:agent.mulder@fbi.gov + Call-ID: 19991231T234505.56.78@fbi.gov + CSeq: 911 INVITE + Subject: Itemised Bill for January 98 + Content-type: application/sdp + Content-Length: 247 + + v=0 + o=- 2353687860 2353687860 IN IP4 128.3.4.5 + s=BillsRUs + i=Joe Pendleton's Phone Bill + e=agent.mulder@fbi.gov + c=TN RFC2543 +1-202-833-1010 + t=2353687860 0 + m=text 1 fax x-files-id + a=fmtp:x-files-id opr:fbi.gov/jdcn-123@45:3des;base64, + + + + + + +Petrack & Conroy Standards Track [Page 45] + +RFC 2848 The PINT Service Protocol June 2000 + + + Note: in this case the opaque reference is a collection of data used + to convince the Executive System that the requester has the right to + get this information, rather than selecting the particular content + (the A party in the To: field of the SIP "wrapper" does that alone). + +5. Security Considerations + +5.1. Basic Principles for PINT Use + + A PINT Gateway, and the Executive System(s) with which that Gateway + is associated, exist to provide service to PINT Requestors. The aim + of the PINT protocol is to pass requests from those users on to a + PINT Gateway so an associated Executive System can service those + requests. + +5.1.1. Responsibility for service requests + + The facility of making a GSTN-based call to numbers specified in the + PINT request, however, comes with some risks. The request can specify + an incorrect telephone of fax number. It is also possible that the + Requestor has purposely entered the telephone number of an innocent + third party. Finally, the request may have been intercepted on its + way through any intervening PINT or SIP infrastructure, and the + request may have been altered. + + In any of these cases, the result may be that a call is placed + incorrectly. Where there is intent or negligence, this may be + construed as harassment of the person incorrectly receiving the call. + Whilst the regulatory framework for misuse of Internet connections + differs throughout the world and is not always mature, the rules + under which GSTN calls are made are much more settled. Someone may be + liable for mistaken or incorrect calls. + + Understandably, the GSTN Operators would prefer that this someone is + not them, so they will need to ensure that any PINT Gateway and + Executive System combination does not generate incorrect calls + through some error in the Gateway or Executive system implementation + or GSTN-internal communications fault. Equally, it is important that + the Operator can show that they act only on requests that they have + good reason to believe are correct. This means that the Gateway must + not pass on requests unless it is sure that they have not been + corrupted in transit from the Requestor. + + If a request can be shown to have come from a particular Requestor + and to have been acted on in good faith by the PINT service provider, + then responsibility for making requests may well fall to the + Requestor rather than the Operator who executed these requests. + + + + +Petrack & Conroy Standards Track [Page 46] + +RFC 2848 The PINT Service Protocol June 2000 + + + Finally, it may be important for the PINT service provider to be able + to show that they act only on requests for which they have some + degree of assurance of origin. In many jurisdictions, it is a + requirement on GSTN Operators that they place calls only when they + can, if required, identify the parties to the call (such as when + required to carry out a Malicious Call Trace). It is at least likely + that the provider of PINT services will have a similar responsibility + placed on them. + + It follows that the PINT service provider may require that the + identity of the Requestor be confirmed. If such confirmation is not + available, then they may be forced (or choose) not to provide + service. This identification may require personal authentication of + the Requesting User. + +5.1.2. Authority to make requests + + Where GSTN resources are used to provide a PINT service, it is at + least possible that someone will have to pay for it. This person may + not be the Requestor, as, for example, in the case of existing GSTN + split-charging services like free phone in which the recipient of a + call rather than the originator is responsible for the call cost. + + This is not, of course, the only possibility; for example, PINT + service may be provided on a subscription basis, and there are a + number of other models. However, whichever model is chosen, there may + be a requirement that the authority of a Requestor to make a PINT + request is confirmed. + + If such confirmation is not available, then, again, the PINT Gateway + and associated Executive System may choose not to provide service. + +5.1.3. Privacy + + Even if the identity of the Requesting User and the Authority under + which they make their request is known, there remains the possibility + that the request is either corrupted, maliciously altered, or even + replaced whilst in transit between the Requestor and the PINT + Gateway. + + Similarly, information on the Authority under which a request is made + may well be carried within that request. This can be sensitive + information, as an eavesdropper might steal this and use it within + their own requests. Such authority SHOULD be treated as if it were + financial information (such as a credit card number or PIN). + + + + + + +Petrack & Conroy Standards Track [Page 47] + +RFC 2848 The PINT Service Protocol June 2000 + + + The data authorizing a Requesting User to make a PINT request should + be known only to them and the service provider. However, this + information may be in a form that does not match the schemes normally + used within the Internet. For example, X.509 certificates[14] are + commonly used for secured transactions on the Internet both in the IP + Security Architecture[12] and in the TLS protocol[13], but the GSTN + provider may only store an account code and PIN (i.e. a fixed string + of numbers). + + A Requesting User has a reasonable expectation that their requests + for service are confidential. For some PINT services, no content is + carried over the Internet; however, the telephone or fax numbers of + the parties to a resulting service calls may be considered sensitive. + As a result, it is likely that the Requestor (and their PINT service + provider) will require that any request that is sent across the + Internet be protected against eavesdroppers; in short, the requests + SHOULD to be encrypted. + +5.1.4. Privacy Implications of SUBSCRIBE/NOTIFY + + Some special considerations relate to monitoring sessions using the + SUBSCRIBE and NOTIFY messages. The SUBSCRIBE message that is used to + register an interest in the disposition of a PINT service transaction + uses the original Session Description carried in the related INVITE + message. This current specification does not restrict the source of + such a SUBSCRIBE message, so it is possible for an eavesdropper to + capture an unprotected session description and use this in a + subsequent SUBSCRIBE request. In this way it is possible to find out + details on that transaction that may well be considered sensitive. + + The initial solution to this risk is to recommend that a session + description that may be used within a subsequent SUBSCRIBE message + SHOULD be protected. + + However, there is a further risk; if the origin-field used is + "guessable" then it might be possible for an attacker to reconstruct + the session description and use this reconstruction within a + SUBSCRIBE message. + + SDP (see section 6 of [2], "o=" field) does not specify the mechanism + used to generate the sess-id field, and suggests that a method based + on timestamps produced by Network Time Protocol [16] can be used. + This is sufficient to guarantee uniqueness, but may allow the value + to be guessed, particularly if other unprotected requests from the + same originator are available. + + + + + + +Petrack & Conroy Standards Track [Page 48] + +RFC 2848 The PINT Service Protocol June 2000 + + + Thus, to ensure that the session identifier is not guessable the + techniques described in section 6.3 of [17] can be used when + generating the origin-field for a session description to be used + inside a PINT INVITE message. If all requests from (and responses to) + a particular PINT requesting entity are protected, then this is not + needed. Where such a situation is not assured, AND where session + monitoring is supported, then a method by which an origin-field + within a session description is not guessable SHOULD be used. + +5.2. Registration Procedures + + Any number of PINT Gateways may register to provide the same service; + this is indicated by the Gateways specifying the same "userinfo" part + in the To: header field of the REGISTER request. Whilst such + ambiguity would be unlikely to occur with the scenarios covered by + "core" SIP, it is very likely for PINT; there could be any number of + service providers all willing to support a "Request-To-Fax" service, + for example. + + Unless a request specifies the Gateway name explicitly, an + intervening Proxy that acts on a registration database to which + several Gateways have all registered is in a position to select from + the registrands using whatever algorithm it chooses; in principle, + any Gateway that has registered as "R2F" would be appropriate. + + However, this opens up an avenue for attack, and this is one in which + a "rogue" Gateway operator stands to make a significant gain. The + standard SIP procedure for releasing a registration is to send a + REGISTER request with a Contact field having a wildcard value and an + expires parameter with a value of 0. It is important that a PINT + Registrar uses authentication of the Registrand, as otherwise one + PINT service provider would be able to "spoof" another and remove + their registration. As this would stop the Proxy passing any requests + to that provider, this would both increase requests being sent to the + rogue and stop requests going to the victim. + + Another variant on this attack would be to register a Gateway using a + name that has been registered by another provider; thus a rogue + Operator might register its Gateway as "R2C@pint.att.com", thereby + hijacking requests. + + The solution is the same; all registrations by PINT Gateways MUST be + authenticated; this includes both new or apparent replacement + registrations, and any cancellation of current registrations. This + recommendation is also made in the SIP specification, but for the + correct operation of PINT, it is very important indeed. + + + + + +Petrack & Conroy Standards Track [Page 49] + +RFC 2848 The PINT Service Protocol June 2000 + + +5.3. Security mechanisms and implications on PINT service + + PINT is a set of extensions to SIP[1] and SDP[2], and will use the + security procedures described in SIP. There are several implications + of this, and these are covered here. + + For several of the PINT services, the To: header field of SIP is used + to identify one of the parties to the resulting service call. The + PINT Request-To-Call service is an example. As mentioned in the SIP + specification, this field is used to route SIP messages through an + infrastructure of Redirect and Proxy server between the corresponding + User Agent Servers, and so cannot be encrypted. This means that, + although the majority of personal or sensitive data can be protected + whilst in transit, the telephone (or fax) number of one of the + parties to a PINT service call cannot, and will be "visible" to any + interception. For the PINT milestone services this may be acceptable, + since the caller named in the To: service is typically a "well known" + provider address, such as a Call Center. + + Another aspect of this is that, even if the Requesting User does not + consider the telephone or fax numbers of the parties to a PINT + service to be private, those parties might. Where PINT servers have + reason to believe this might be the case they SHOULD encrypt the + request, even if the Requestor has not done so. This could happen, + for example, if a Requesting User within a company placed a PINT + request and this was carried via the company's Intranet to their + Proxy/firewall and thence over the Internet to a PINT Gateway at + another location. + + If a request carries data that can be reused by an eavesdropper + either to "spoof" the Requestor or to obtain PINT service by + inserting the Requestor's authorization token into an eavesdropper's + request, then this data MUST be protected. This is particularly + important if the authorization token consists of static text (such as + an account code and/or PIN). + + One approach is to encrypt the whole of the request, using the + methods described in the SIP specification. As an alternative, it may + be acceptable for the authorization token to be held as an opaque + reference (see section 3.4.2.3 and examples 4.11 and 4.12), using + some proprietary scheme agreed between the Requestor and the PINT + service provider, as long as this is resistant to interception and + re-use. Also, it may be that the authorization token cannot be used + outside of a request cryptographically signed by the Requestor; if so + then this requirement can be relaxed, as in this case the token + cannot be re-used by another. However, unless both the Requestor and + the Gateway are assured that this is the case, any authorization + token MUST be treated as sensitive, and so MUST be encrypted. + + + +Petrack & Conroy Standards Track [Page 50] + +RFC 2848 The PINT Service Protocol June 2000 + + + A PINT request may contain data within the SDP message body that can + be used more efficiently to route that request. For example, it may + be that one Gateway and Executive System combination cannot handle a + request that specifies one of the parties as a pager, whilst another + can. Both gateways may have registered with a PINT/SIP Registrar, and + this information may be available to intervening PINT/SIP Proxies. + However, if the message body is encrypted, then the request cannot be + decoded at the Proxy server, and so Gateway selection based on + contained information cannot be made there. + + The result is that the Proxy may deliver the request to a Gateway + that cannot handle it; the implication is that a PINT/SIP Proxy + SHOULD consider its choice for the appropriate Gateway subject to + correction, and, on receiving a 501 or 415 rejection from the first + gateway chosen, try another. In this way, the request will succeed if + at all possible, even though it may be delayed (and tie up resources + in the inappropriate Gateways). + + This opens up an interesting avenue for Denial Of Service; sending a + valid request that appears to be suitable for a number of different + Gateways, and simply occupying those Gateways in decrypting a message + requesting a service they cannot provide. As mentioned in section + 3.5.5.1, the choice of service name to be passed in the userinfo + portion of the SIP Request-URI is flexible, and it is RECOMMENDED + that names be chosen that allow a Proxy to select an appropriate + Gateway without having to examine the SDP body part. Thus, in the + example given here, the service might be called "Request-To-Page" or + "R2P" rather than the more general use of "R2F", if there is a + possibility of the SDP body part being protected during transit. + + A variation on this attack is to provide a request that is + syntactically invalid but that, due to the encryption, cannot be + detected without expending resources in decoding it. The effects of + this form of attack can be minimised in the same way as for any SIP + Invitation; the Proxy should detect the 400 rejection returned from + the initial Gateway, and not pass the request onwards to another. + + Finally, note that the Requesting User may not have a prior + relationship with a PINT Gateway, whilst still having a prior + relationship with the Operator of the Executive System that fulfills + their request. Thus there may be two levels of authentication and + authorization; one carried out using the techniques described in the + SIP specification (for use between the Requestor and the Gateway), + with another being used between the Requesting User or the Requestor + and the Executive System. + + + + + + +Petrack & Conroy Standards Track [Page 51] + +RFC 2848 The PINT Service Protocol June 2000 + + + For example, the Requesting User may have an account with the PINT + service provider. That provider might require that requests include + this identity before they will be convinced to provide service. In + addition, to counter attacks on the request whilst it is in transit + across the Internet, the Gateway may require a separate X.509-based + certification of the request. These are two separate procedures, and + data needed for the former would normally be expected to be held in + opaque references inside the SDP body part of the request. + + The detailed operation of this mechanism is, by definition, outside + the scope of an Internet Protocol, and so must be considered a + private matter. However, one approach to indicating to the Requestor + that such "second level" authentication or authorization is required + by their Service Provider would be to ask for this inside the textual + description carried with a 401 response returned from the PINT + Gateway. + +5.4. Summary of Security Implications + + From the above discussion, PINT always carries data items that are + sensitive, and there may be financial considerations as well as the + more normal privacy concerns. As a result, the transactions MUST be + protected from interception, modification and replay in transit. + + PINT is based on SIP and SDP, and can use the security procedures + outlined in [1] (sections 13 and 15). However, in the case of PINT, + the SIP recommendation that requests and responses MAY be protected + is not enough. PINT messages MUST be protected, so PINT + Implementations MUST support SIP Security (as described in [1], + sections 13 & 15), and be capable of handling such received messages. + + In some configurations, PINT Clients, Servers, and Gateways can be + sure that they operate using the services of network level security + [13], transport layer security [12], or physical security for all + communications between them. In these cases messages MAY be exchanged + without SIP security, since all traffic is protected already. Clients + and servers SHOULD support manual configuration to use such lower + layer security facilities. + + When using network layer security [13], the Security Policy Database + MUST be configured to provide appropriate protection to PINT traffic. + When using TLS, a port configured MUST NOT also be configured for + non-TLS traffic. When TLS is used, basic authentication MUST be + supported, and client-side certificates MAY be supported. + + + + + + + +Petrack & Conroy Standards Track [Page 52] + +RFC 2848 The PINT Service Protocol June 2000 + + + Authentication of the Client making the request is required, however, + so if this is not provided by the underlying mechanism used, then it + MUST be included within the PINT messages using SIP authentication + techniques. In contrast with SIP, PINT requests are often sent to + parties with which a prior communications relationship exists (such + as a Telephone Carrier). In this case, there may be a shared secret + between the client and the PINT Gateway. Such PINT systems MAY use + authentication based on shared secrets, with HTTP "basic + authentication". When this is done, the message integrity and privacy + must be guaranteed by some lower layer mechanism. + + There are implications on the operation of PINT here though. If a + PINT proxy or redirect server is used, then it must be able to + examine the contents of the IP datagrams carried. It follows that an + end-to-end approach using network-layer security between the PINT + Client and a PINT Gateway precludes the use of an intervening proxy; + communication between the Client and Gateway is carried via a tunnel + to which any intervening entity cannot gain access, even if the IP + datagrams are carried via this node. Conversely, if a "hop-by-hop" + approach is used, then any intervening PINT proxies (or redirect + servers) are, by implication, trusted entities. + + However, if there is any doubt that there is an underlying network or + transport layer security association in place, then the players in a + PINT protocol exchange MUST use encryption and authentication + techniques within the protocol itself. The techniques described in + section 15 of RFC2543 MUST be used, unless there is an alternative + protection scheme that is agreed between the parties. In either case, + the content of any message body (or bodies) carried within a PINT + request or response MUST be protected; this has implications on the + options for routing requests via Proxies (see 5.3). + + Using SIP techniques for protection, the Request-URI and To: fields + headers within PINT requests cannot be protected. In the baseline + PINT services these fields may contain sensitive information. This is + a consideration, and if these data ARE considered sensitive, then + this will preclude the sole use of SIP techniques; in such a + situation, transport [12] or network layer [13] protection mechanisms + MUST be used. + + As a final point, this choice will in turn have an influence on the + choice of transport layer protocol that can be used; if a TLS + association is available between two nodes, then TCP will have to be + used. This is different from the default behaviour of SIP (try UDP, + then try TCP if that fails). + + + + + + +Petrack & Conroy Standards Track [Page 53] + +RFC 2848 The PINT Service Protocol June 2000 + + +6. Deployment considerations and the Relationship PINT to I.N. + (Informative) + +6.1. Web Front End to PINT Infrastructure + + It is possible that some other protocol may be used to communicate a + Requesting User's requirements. Due to the high numbers of available + Web Browsers and servers it seems likely that some PINT systems will + use HTML/HTTP as a "front end". In this scenario, HTTP will be used + over a connection from the Requesting User's Web Browser (WC) to an + Intermediate Web Server (WS). This will be closely associated with a + PINT Client (using some unspecified mechanism to transfer the data + from the Web Server to the PINT Client). The PINT Client will + represent the Requesting User to the PINT Gateway, and thus to the + Executive System that carries out the required action. + + [WC]------[WS] + [PC] + \ + \ + [PG] + [XS] + + Figure 2: Basic "Web-fronted" Configuration + +6.2. Redirects to Multiple Gateways + + It is quite possible that a given PINT Gateway is associated with an + Executive System (or systems) that can connect to the GSTN at + different places. Equally, if there is a chain of PINT Servers, then + each of these intermediate or proxy servers (PP) may be able to route + PINT requests to Executive Systems that connect at specific points to + the GSTN. The result of this is that there may be more than one PINT + Gateway or Executive System that can deal with a given request. The + mechanisms by which the choice on where to deliver a request are + outside the scope of this document. + + [WC]------[WS] [WC]------[WS] + [PC] [PC] + \ \ + \ \ + [PG] [PP] + .........[XS]......... / \ + : : / \ + [PG] [PG] + [XS] [XS] + + Figure 3: Multiple Access Configurations + + + +Petrack & Conroy Standards Track [Page 54] + +RFC 2848 The PINT Service Protocol June 2000 + + + However, there do seem to be two approaches. Either a Server that + acts as a proxy or redirect will select the appropriate Gateway + itself and will cause the request to be sent on accordingly, or a + list of possible Locations will be returned to the Requesting User + from which they can select their choice. + + In SIP, the implication is that, if a proxy cannot resolve to a + single unique match for a request destination, then a response + containing a list of the choices should be returned to the Requesting + User for selection. This is not too likely a scenario within the + normal use of SIP. + + However, within PINT, such ambiguity may be quite common; it implies + that there are a number of possible providers of a given service. + +6.3. Competing PINT Gateways REGISTERing to offer the same service + + With PINT, the registration is not for an individual but instead for + a service that can be handled by a service provider. Thus, one can + envisage a registration by the PINT Server of the domain telcoA.com + of its ability to support the service R2C as "R2C@telcoA.com", sent + to an intermediary server that acts as registrar for the + "broker.telcos.com" domain from "R2C@pint.telcoA.com" as follows: + + REGISTER sip:registrar@broker.telcos.com SIP/2.0 + To: sip:R2C@pint.telcoA.com + From: sip:R2C@pint.telcoA.com + ... + + This is the standard SIP registration service. + + However, what happens if there are a number of different Service + Providers, all of whom support the "R2C" service? Suppose there is a + PINT system at domain "broker.com". PINT clients requesting a + Request-to-Call service from broker.com might be very willing to be + redirected or proxied to any one of the various service providers + that had previously registered with the registrar. PINT servers might + also be interested in providing service for requests that did not + specify the service provider explicitly, as well as those requests + that were directed "at them". + + To enable such service, PINT servers would REGISTER at the broker + PINT server registrations of the form: + + REGISTER sip:registrar@broker.com SIP/2.0 + To: sip:R2C@broker.com + From: sip:R2C@pint.telcoA.com + + + + +Petrack & Conroy Standards Track [Page 55] + +RFC 2848 The PINT Service Protocol June 2000 + + + When several such REGISTER messages appear at the registrar, each + differing only in the URL in the From: line, the registrar has many + possibilities, e.g.: + + (i) it overwrites the prior registration for "R2C@broker.telcos.com" + when the next comes in; + + (ii) it rejects the subsequent registration for + "R2C@broker.telcos.com"; + + (iii) it maintains all such registrations. + + In this last case, on receiving an Invitation for the "general" + service, either: + + (iii.1) it passes on the invitation to all registered service + providers, returning a collated response with all + acceptances, using multiple Location: headers, + or + (iii.2) it silently selects one of the registrations (using, for + example, a "round robin" approach) and routes the Invitation + and response onwards without further comment. + + As an alternative to all of the above approaches, it: + + (iv) may choose to not allow registrations for the "general" service, + rejecting all such REGISTER requests. + + The algorithm by which such a choice is made will be implementation- + dependent, and is outside the scope of PINT. Where a behaviour is to + be defined by requesting users, then some sort of call processing + language might be used to allow those clients, as a pre-service + operation, to download the behaviour they expect to the server making + such decisions. This, however, is a topic for other protocols, not + for PINT. + +6.4. Limitations on Available Information and Request Timing for + SUBSCRIBE + + A reference configuration for PINT is that service requests are sent, + via a PINT Gateway, to an Executive System that fulfills the Service + Control Function (SCF) of an Intelligent Network (see [11]). The + success or failure of the resulting service call may be information + available to the SCF and so may potentially be made available to the + PINT Gateway. In terms of historical record of whether or not a + service succeeded, a large SCF may be dealing with a million call + attempts per hour. Given that volume of service transactions, there + + + + +Petrack & Conroy Standards Track [Page 56] + +RFC 2848 The PINT Service Protocol June 2000 + + + are finite limits beyond which it cannot store service disposition + records; expecting to find out if a Fax was sent last month from a + busy SCF is unrealistic. + + Other status changes, such as that on completion of a successful + service call, require the SCF to arrange monitoring of the service + call in a way that the service may not do normally, for performance + reasons. In most implementations, it is difficult efficiently to + interrupt a service to change it once it has begun execution, so it + may be necessary to have two different services; one that sets GSTN + resources to monitor service call termination, and one that doesn't. + It is unlikely to be possible to decide that monitoring is required + once the service has started. + + These factors can have implications both on the information that is + potentially available at the PINT Gateway, and when a request to + register interest in the status of a PINT service can succeed. The + alternative to using a general SCF is to provide a dedicated Service + Node just for PINT services. As this node is involved in placing all + service calls, it is in a position to collect the information needed. + However, it may well still not be able to respond successfully to a + registration of interest in call state changes once a service logic + program instance is running. + + Thus, although a Requesting User may register an interest in the + status of a service request, the PINT Gateway may not be in a + position to comply with that request. Although this does not affect + the protocol used between the Requestor and the PINT Gateway, it may + influence the response returned. To avoid the problem of changing + service logic once running, any registration of interest in status + changes should be made at or before the time at which the service + request is made. + + Conversely, if a historical request is made on the disposition of a + service, this should be done within a short time after the service + has completed; the Executive System is unlikely to store the results + of service requests for long; these will have been processed as AMA + (Automatic Message Accounting) records quickly, after which the + Executive System has no reason to keep them, and so they may be + discarded. + + Where the PINT Gateway and the Executive System are intimately + linked, the Gateway can respond to status subscription requests that + occur while a service is running. It may accept these requests and + simply not even try to query the Executive System until it has + information that a service has completed, merely returning the final + status. Thus the PINT Requestor may be in what it believes is a + monitoring state, whilst the PINT Gateway has not even informed the + + + +Petrack & Conroy Standards Track [Page 57] + +RFC 2848 The PINT Service Protocol June 2000 + + + Executive System that a request has been made. This will increase the + internal complexity of the PINT Gateway in that it will have a + complex set of interlocking state machines, but does mean that status + registration and indication CAN be provided in conjunction with an + I.N. system. + +6.5. Parameters needed for invoking traditional GSTN Services within + PINT + + This section describes how parameters needed to specify certain + traditional GSTN services can be carried within PINT requests. + +6.5.1. Service Identifier + + When a Requesting User asks for a service to be performed, he or she + will, of course, have to specify in some way which service. This can + be done in the URLs within the To: header and the Request-URI (see + section 3.5.5.1). + +6.5.2. A and B parties + + With the Request-to-Call service, they will also need to specify the + A and B parties they want to be engaged in the resulting service + call. The A party could identify, for example, the Call Center from + which they want a call back, whilst the B party is their telephone + number (i.e. who the Call Center agent is to call). + + The Request-to-Fax and Request-to-Hear-Content services require the B + party to be specified (respectively the telephone number of the + destination Fax machine or the telephone to which spoken content is + to be delivered), but the A party is a Telephone Network based + resource (either a Fax or speech transcoder/sender), and is implicit; + the Requesting User does not (and cannot) specify it. + + With the "Fax-Back" variant of the Request-to-Fax service, (i.e. + where the content to be delivered resides on the GSTN) they will also + have specify two parties. As before, the B party is the telephone + number of the fax machine to which they want a fax to be sent. + However, within this variant the A party identifies the "document + context" for the GSTN-based document store from which a particular + document is to be retrieved; the analogy here is to a GSTN user + dialling a particular telephone number and then entering the document + number to be returned using "touch tone" digits. The telephone number + they dial is that of the document store or A party, with the "touch + tone" digits selecting the document within that store. + + + + + + +Petrack & Conroy Standards Track [Page 58] + +RFC 2848 The PINT Service Protocol June 2000 + + +6.5.3. Other Service Parameters + + In terms of the extra parameters to the request, the services again + differ. The Request-to-Call service needs only the A and B parties. + Also it is convenient to assert that the resulting service call will + carry voice, as the Executive System within the destination GSTN may + be able to check that assertion against the A and B party numbers + specified and may treat the call differently. + + With the Request-to-Fax and Request-to-Hear-Content services, the + source information to be transcoded is held on the Internet. That + means either that this information is carried along with the request + itself, or that a reference to the source of this information is + given. + + In addition, it is convenient to assert that the service call will + carry fax or voice, and, where possible, to specify the format for + the source information. + + The GSTN-based content or "Fax-Back" variant of the Request-to-Fax + service needs to specify the Document Store number and the Fax + machine number to which the information is to be delivered. It is + convenient to assert that the call will carry Fax data, as the + destination Executive System may be able to check that assertion + against the document store number and that of the destination Fax + machine. + + In addition, the document number may also need to be sent. This + parameter is an opaque reference that is carried through the Internet + but has significance only within the GSTN. The document store number + and document number together uniquely specify the actual content to + be faxed. + +6.5.4. Service Parameter Summary + + The following table summarises the information needed in order to + specify fully the intent of a GSTN service request. Note that it + excludes any other parameters (such as authentication or + authorisation tokens, or Expires: or CallId: headers) that may be + used in a request. + +Service ServiceID AParty BParty CallFmt Source SourceFmt +------- --------- ------ ------ ------- ------ ------- + R2C x x x voice - - + R2F x - x fax URI/IL ISF/ILSF + R2FB x x x fax OR - + R2HC x - x voice URI/IL ISF/ILSF + + + + +Petrack & Conroy Standards Track [Page 59] + +RFC 2848 The PINT Service Protocol June 2000 + + + In this table, "x" means that the parameter is required, whilst "-" + means that the parameter is not required. + + The Services listed are Request-to-Call (R2C), Request-to-Fax (R2F), + the GSTN-based content or "Fax-back" Variant of Request-to-Fax + (R2FB), and Request-to-Hear-Content (R2HC). + + The Call Format parameter values "voice" or "fax" indicate the kind + of service call that results. + + The Source Indicator "URI/IL" implies that the information is either + an Internet source reference (a Universal Resource Identifier, or + URI) or is carried "in-line" with the message. The Source indicator + "OR" means that the value passed is an Opaque Reference that should + be carried along with the rest of the message but is to be + interpreted only within the destination (GSTN) context. As an + alternative, it could be given as a "local" reference with the "file" + style, or even using a partial reference with the "http" style. + However, the way in which such a reference is interpreted is a matter + for the receiving PINT Server and Executive System; it remains, in + effect, an opaque reference. + + The Source Format value "ISF/ILSF" means that the format of the + source is specified either in terms of the URI or that it is carried + "in-line". Note that, for some data, the format either can be + detected by inspection or, if all else fails, can be assumed from the + URI (for example, by assuming that the file extension part of a URL + indicates the data type). For an opaque reference, the Source Format + is not available on the Internet, and so is not given. + +6.6. Parameter Mapping to PINT Extensions + + This section describes the way in which the parameters needed to + specify a GSTN service request fully might be carried within a "PINT + extended" message. There are other choices, and these are not + precluded. However, in order to ensure that the Requesting User + receives the service that they expect, it is necessary to have some + shared understanding of the parameters passed and the behaviour + expected of the PINT Server and its attendant Executive System. + + The Service Identifier can be sent as the userinfo element of the + Request-URI. Thus, the first line of a PINT Invitation would be of + the form: + + INVITE @. SIP/2.0 + + + + + + +Petrack & Conroy Standards Track [Page 60] + +RFC 2848 The PINT Service Protocol June 2000 + + + The A Party for the Request-to-Call and "Fax-back" variant of + Request-to-Fax service can be held in the "To:" header field. In this + case the "To:" header value will be different from the Request-URI. + In the services where the A party is not specified, the "To:" field + is free to repeat the value held in the Request-URI. This is the case + for Request-to-Fax and Request-to-Hear-Content services. + + The B party is needed in all these milestone services, and can be + held in the enclosed SDP sub-part, as the value of the "c=" field. + + The call format parameter can be held as part of the "m=" field + value. It maps to the "transport protocol" element as described in + section 3.4.2 of this document. + + The source format specifier is held in the "m=", as a type and either + "-" or sub-type. The latter is normally required for all services + except Request-to-Call or "Faxback", where the "-" form may be used. + As shown earlier, the source format and source are not always + required when generating requests for services. However, the + inclusion in all requests of a source format specifier can make + parsing the request simpler and allows for other services to be + specified in the future, and so values are always given. The source + format parameter is covered in section 3.4.2 as the "media type" + element. + + The source itself is identified by an "a=fmtp:" field value, where + needed. With the exception of the Request-to-Call service, all + invitations will normally include such a field. From the perspective + of the SDP extensions, it can be considered as qualifying the media + sub-type, as if to say, for example, "when I say jpeg, what I mean is + the following". + + In summary, the parameters needed by the different services are + carried in fields as shown in the following table: + +Service Svc Param PINT/SIP or SDP field used Example value +------- --------- -------------------------- ------------- + R2C + ServiceID: R2C + AParty: sip:123@p.com + BParty: TN RFC2543 4567 + CallFormat: voice + SourceFmt: audio + (--- only "-" sub-type + sub-field value used) --- + Source: (--- No source specified) --- + + + +Petrack & Conroy Standards Track [Page 61] + +RFC 2848 The PINT Service Protocol June 2000 + + + R2F + ServiceID: R2F + AParty: (--- SIP To: field not used) sip:R2F@pint.xxx.net + BParty: TN RFCxxx +441213553 + CallFormat: fax + SourceFmt: image + jpeg + Source: a=fmtp:jpeg + + R2FB + ServiceID: R2FB + AParty: sip:1-730-1234@p.com + BParty: TN RFCxxx +441213553 + CallFormat: fax + SourceFmt: image + jpeg + Source: a=fmtp:jpeg opr:1234 + + R2HC + ServiceID: R2HC + AParty: (--- SIP To: field not used) sip:R2HC@pint.ita.il + BParty: TN RFCxxx +441213554 + CallFormat: voice + SourceFmt: text + html + Source: a=fmtp:html + +7. References + + [1] Handley, M., Schooler, E., Schulzrinne, H. and J. Rosenberg, + "SIP: Session Initiation Protocol", RFC 2543, March 1999. + + [2] Handley, M. and V. Jacobsen, "SDP: Session Description + Protocol", RFC 2327, April 1998. + + + + + +Petrack & Conroy Standards Track [Page 62] + +RFC 2848 The PINT Service Protocol June 2000 + + + [3] Freed, N. and N. Borenstein, "Multipurpose Internet Mail + Extensions (MIME) Part One: Format of Internet Message Bodies", + RFC 2045, November 1996. + + [4] Freed, N. and N. Borenstein, "Multipurpose Internet Mail + Extensions (MIME) Part Two: Media Types", RFC 2046, November + 1996. + + [5] The Unicode Consortium, "The Unicode Standard -- Version 2.0", + Addison-Wesley, 1996. + + [6] ITU-T Study Group 2, "E.164 - The International Public Network + Numbering Plan", ITU-T, June 1997. + + [7] Lu, H., Krishnaswamy, M., Conroy, L., Bellovin, S., Burg, F., + DeSimone, A., Tewani, K., Davidson, P., Schulzrinne, H. and K. + Vishwanathan "Toward the PSTN/Internet Inter-Networking--Pre- + PINT Implementations", RFC 2458, November 1998. + + [8] ITU-T Study Group XI, "Q.763 - Formats and Codes for the ISDN + User Part of SS No7" ITU-T, August 1994. + + [9] Berners-Lee, T., Fielding, R. and L. Masinter, "Uniform Resource + Identifiers (URI): Generic Syntax", RFC 2396, August 1998. + + [10] Crocker, D., "Standard for the format of ARPA Internet text + messages", STD 11, RFC 822, August 1982. + + [11] ITU-T Study Group XI, "Q.1204 - IN Distributed Functional Plane + Architecture", ITU-T, February 1994. + + [12] Dierks, T. and C. Allen, "The TLS Protocol Version 1.0", RFC + 2246, January 1999. + + [13] Kent, S. and R. Atkinson, "Security Architecture for the + Internet Protocol", RFC 2401, November 1998. + + [14] Housley, R., Ford, W., Polk W. and D. Solo, "Internet X.509 + Public Key Infrastructure Certificate and CRL Profile", RFC + 2459, January 1999. + + [15] Crocker, D. and P. Overall, "Augmented BNF for Syntax + Specifications: ABNF", RFC 2234, November 1997. + + [16] Mills, D., "Network Time Protocol (version 3) specification and + implementation", RFC 1305, March 1992. + + + + + +Petrack & Conroy Standards Track [Page 63] + +RFC 2848 The PINT Service Protocol June 2000 + + + [17] Eastlake, D., Crocker, S. and J.Schiller, "Randomness + Recommendations for Security", RFC 1750, December 1994. + + [18] Mockapetris, P., "Domain Names - Implementation and + Specification", STD 13, RFC 1035, November 1987. + + [19] Levinson, E., "The MIME Multipart/Related Content-type" RFC + 2387, August 1998. + +8. Acknowledgements + + The authors wish to thank the members of the PINT working group for + comments that were helpful to the preparation of this specification. + Ian Elz's comments were extremely useful to our understanding of + internal PSTN operations. The SUBSCRIBE and NOTIFY requests were + first suggested by Henning Schulzrinne and Jonathan Rosenberg. The + suggestion to use an audio port of 0 to express that the phone is "on + hold" (i.e. not receiving voice) is due to Ray Zibman. Finally, + thanks to Bernie Hoeneisen for his close proofreading. + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Petrack & Conroy Standards Track [Page 64] + +RFC 2848 The PINT Service Protocol June 2000 + + +Appendix A: Collected ABNF for PINT Extensions + +;; --(ABNF is specified in RFC 2234 [15]) + +;; --Variations on SDP definitions + +connection-field = ["c=" nettype space addrtype space + connection-address CRLF] +; -- this is the original definition from SDP, included for completeness +; -- the following are PINT interpretations and modifications + +nettype = ("IN"/"TN") +; -- redefined as a superset of the SDP definition + +addrtype = (INAddrType / TNAddrType) +; -- redefined as a superset of the SDP definition + +INAddrType = ("IP4"/"IP6") +; -- this non-terminal added to hold original SDP address types + +TNAddrType = ("RFC2543"/OtherAddrType) + +OtherAddrType = () +; -- X-token is as defined in RFC2045 + +addr = ( / / TNAddr) +; -- redefined as a superset of the original SDP definition +; -- FQDN and unicast address as specified in SDP + +TNAddr = (RFC2543Addr/OtherAddr) +; -- TNAddr defined only in context of nettype == "TN" + +RFC2543Addr = (INPAddr/LDPAddr) + +INPAddr = "+" 0*(("-" )/) +; -- POS-DIGIT and DIGIT as defined in SDP + +LDPAddr = 0*(("-" )/) + +OtherAddr = 1* +; -- OtherAdd defined in the context of OtherAddrType +; -- uric is as defined in RFC2396 + +media-field = "m=" media port proto + 1*( fmt) +; -- NOTE redefined as subset/relaxation of original SDP definition +; -- space and CRLF as defined in SDP + + + + +Petrack & Conroy Standards Track [Page 65] + +RFC 2848 The PINT Service Protocol June 2000 + + +media = ("application"/"audio"/"image"/"text") +; -- NOTE redefined as a subset of the original SDP definition +; -- This could be any MIME discrete type; Only those listed are +; -- used in PINT 1.0 + +port = ("0" / "1") +; -- NOTE redefined from the original SDP definition; +; -- 0 retains usual sdp meaning of "temporarily no media" +; -- (i.e. "line is on hold") +; -- (1 means there is media) + +proto = (INProto/TNProto) +; -- redefined as a superset of the original SDP definition + +INProto = 1* () +; -- this is the "classic" SDP protocol, defined if nettype == "IN" +; -- alpha-numeric is as defined in SDP +TNProto = ("voice"/"fax"/"pager") +; -- this is the PINT protocol, defined if nettype == "TN" + +fmt = ( / "-") +; -- NOTE redefined as a subset of the original SDP definition +; -- subtype as defined in RFC2046, or "-". MUST be a subtype of type +held +; -- in associated media sub-field or the special value "-". + +attribute-fields = *("a=" attribute-list ) +; -- redefined as a superset of the definition given in SDP +; -- CRLF is as defined in SDP + +attribute-list = 1(PINT-attribute / ) +; -- attribute is as defined in SDP + +PINT-attribute = (clir-attribute / q763-nature-attribute / + q763plan-attribute / q763-INN-attribute / + phone-context-attribute / tsp-attribute / + pint-fmtp-attribute / strict-attribute) + +clir-attribute = clir-tag ":" ("true" / "false") + +clir-tag = "clir" + +q763-nature-attribute = Q763-nature-tag ":" q763-natures + +q763-nature-tag = "Q763-nature" + +q763-natures = ("1" / "2" / "3" / "4") + + + + +Petrack & Conroy Standards Track [Page 66] + +RFC 2848 The PINT Service Protocol June 2000 + + +q763-plan-attribute = Q763-plan-tag ":" q763-plans + +q763-plan-tag = "Q763-plan" + +q763-plans = ("1" / "2" / "3" / "4" / "5" / "6" / "7") +; -- of these, the meanings of 1, 3, and 4 are defined in the text + +q763-INN-attribute = Q763-INN-tag ":" q763-INNs + +q763-INN-tag = "Q763-INN" + +q763-INNs = ("0" / "1") + +phone-context-attribute = phone-context-tag ":" phone-context-ident + +phone-context-tag = "phone-context" + +phone-context-ident = network-prefix / private-prefix + +network-prefix = intl-network-prefix / local-network-prefix + +intl-network-prefix = "+" 1* + +local-network-prefix = 1* + +private-prefix = 1*excldigandplus 0* + +excldigandplus = (0x21-0x2d,0x2f,0x40-0x7d)) +tsp-attribute = tsp-tag "=" provider-domainname + +tsp-tag = "tsp" + +provider-domainname = +; -- domain is defined in RFC1035 + +; -- NOTE the following is redefined relative to the normal use in SDP +pint-fmtp-attribute = "fmtp:" resolution + *( resolution) + ( ";" 1() *( +)) +; -- subtype as defined in RFC2046. +; -- NOTE that this value MUST match a fmt on the ultimately preceeding +; -- media-field +; -- attribute is as defined in SDP + +resolution = (uri-ref / opaque-ref / sub-part-ref) + +uri-ref = uri-tag ":" + + + +Petrack & Conroy Standards Track [Page 67] + +RFC 2848 The PINT Service Protocol June 2000 + + +; -- URI-Reference defined in RFC2396 + +uritag = "uri" + +opaque-ref = opr-tag ":" 0* + +opr-tag = "opr" + +sub-part-ref = spr-tag ":" +; -- Content-ID is as defined in RFC2046 and RFC822 + +spr-tag = "spr" + +strict-attribute = "require:" att-tag-list + +att-tag-list = 1(PINT-att-tag-list / / + pint-fmtp-tag-list) + *("," + (PINT-att-tag-list / / + pint-fmtp-tag-list) + ) +; -- att-field as defined in SDP + +PINT-att-tag-list = (phone-context-tag / clir-tag / + q763-nature-tag / q763-plan-tag / + q763-INN-tag) + +pint-fmtp-tag-list = (uri-tag / opr-tag / spr-tag) + +;; --Variations on SIP definitions + +clir-parameter = clir-tag "=" ("true" / "false") + +q763-nature-parameter = Q763-nature-tag "=" Q763-natures + +q763plan-parameter = Q763-plan-tag "=" q763plans + +q763-INN-parameter = Q763-INN-tag "=" q763-INNs + +tsp-parameter = tsp-tag "=" provider-domainname + +phone-context-parameter = phone-context-tag "=" phone-context-ident + +SIP-param = ( / / / + / / ) +; -- the values in this list are all as defined in SIP + +PINT-param = ( clir-parameter / q763-nature-parameter / + + + +Petrack & Conroy Standards Track [Page 68] + +RFC 2848 The PINT Service Protocol June 2000 + + + q763plan-parameter / q763-INN-parameter/ + tsp-parameter / phone-context-parameter ) + +URL-parameter = (SIP-param / PINT-param) +; -- redefined SIP's URL-parameter to include ones defined in PINT + +Require-header = "require:" 1(required-extensions) + *("," required-extensions) +; -- NOTE this is redefined as a subset of the SIP definition +; -- (from RFC2543/section 6.30) + +required-extensions = ("org.ietf.sip.subscribe" / + "org.ietf.sdp.require") + +Appendix B: IANA Considerations + + There are three kinds of identifier used in PINT extensions that + SHOULD be registered with IANA, if a new value is specified. These + are: + + * Media Format sub-types, as described in section 3.4.2 of this + document. + * Private Attributes as mentioned in section 3.4.3 + * Private Phone Context values, as described in section 3.4.3.1. + + It should be noted that private Address Types (in section 3.4.1) have + been explicitly excluded from this process, as they must be in the + form of an X-Token. + +B.1. Media Format Sub-types + + Taking these in turn, the media format sub-types are used within the + PINT extensions to SDP to specify the attribute line that holds the + data source definitions. In normal use, the values in this field are + sub-types of MIME discrete types[4]. If a value other than an IANA- + registered sub-type is to be used, then it should either be an X- + Token (i.e. start with "X-") or it should be registered with IANA. if + the intention is to describe a new MIME sub-type, then the procedures + specified in RFC 2048 should be used. It is ASSUMED that any new MIME + sub-type would follow the syntactic rules for interpretation of + associated PINT fmtp lines defined in this document. + + Note that, in keeping with the SDP description, such registrations + SHOULD include the "proto" field values within which they are + defined; however, it is appropriate to specify only that they can be + used with "all values of TNProto". + + + + + +Petrack & Conroy Standards Track [Page 69] + +RFC 2848 The PINT Service Protocol June 2000 + + + Conversely, if the intent is to define a new way of including data + source definitions within PINT, then it will be necessary to specify, + in the documentation supporting any such new "PINT Media Format Sub- + type" registration, the syntax of the associated "fmtp" attribute + line, as the identifier serves to indicate the interpretation that + should be made of format specific attribute lines "tagged" with such + a sub-type. + + If the fmtp interpretation follows the PINT default, then it is + adequate to mention this in the defining document rather than + repeating the syntax definition given here (although, in this case, + it is unclear why such a new registration would be required). As + before, the Media Format sub-type SHOULD specify the values of + "proto" field within which it is defined, but this can be "all values + of TNProto". + +B.2. Private Attributes + + Any proprietary attribute lines that are added may be registered with + IANA using the procedures mentioned in [2]; the mechanism is the same + as that used in SDP. If the attribute is defined for use only within + PINT, then it may be appropriate to mention this in the supporting + documentation. Note that, in the PINT 1.0 specification covered here, + there is no mechanism to add such freshly registered attribute lines + to a "require:" clause. + +B.3. Private phone-contexts + + Within the session description used for PINT requests, a phone- + context attribute may be used to specify the prefix or context within + which an associated telephone-number (in a connection line) should be + interpreted. + + For "public" phone contexts the prefix to be used MUST start with + either a DIGIT or a "+". Private phone contexts may be registered + with IANA that do NOT start with either of these characters. Such a + prefix may be useful to identify a private network, potentially with + an associated numeric ID (see example 4 in section 3.4.3.1). In the + example, the prefix acts as the context for X-acme.com's private + network numbering plan. + + It is recommended that any private context to be registered have the + general form of a token including a domain name, optionally followed + by a digit string or other token. The appropriate form of the initial + token name space will be similar to that used for private or vendor + registrations for sub-types (e.g. vnd.acme.com). However, note that + the registration will be used to specify a customer's private network + numbering plan format rather than being used generally for all of + + + +Petrack & Conroy Standards Track [Page 70] + +RFC 2848 The PINT Service Protocol June 2000 + + + their equipment vendor's customer's; thus, fbi.gov would be + appropriate, but lucent.com would not (unless the private network + were to be that used by Lucent internally). + + In addition, the supporting documentation MUST either declare that + there is no associated token, or define the syntax by which that + token can be parsed (e.g. vnd.fbi.gov 1*DIGIT). Note that the + registration describes a format, not a value range; it is sufficient + that the private context can be parsed, without the value being + interpreted. + + In detail, the registration request SHOULD include: + + * Kind of registration (i.e. private phone-context attribute to be + used within the service description of PINT service requests) + * Contact details for the person responsible for the registration + request (name, organisation, e-mail address, public telephone + number) + * Private Prefix initial token name (e.g. vnd.fbi.gov) + * syntax for private context (e.g. "vnd.fbi.gov" 1*DIGIT, or + "vnd.gtn.gov.uk") + * Description of use (e.g. "This phone context declares an + associated telephone number to be within the 'government + telecommunications network'; the number is in an internal or + private number plan form) + * Network Type and Address Type with which this private context is + associated; If the "normal" telephone types (as specified in this + document) are used, then the values would be shown as: + "nettype=TN" , addrtype="RFC2543Addr". If, however, this context + were to be used with another address type, then a reference to + that address type name and the syntax of that address value would + be required. + + In short, this context is the telephone equivalent of a "Net 10" + address space behind a NAT, and the initial name (and contact + information) shows the context within which that address is valid. It + also specifies the format for the network and address types (and + address value syntax) with which this context is associated. + + Of course, IANA may refer the requested registration to the IESG or + an appropriate IETF working group for review, and may require + revisions to be made before the registration is accepted. + + + + + + + + + +Petrack & Conroy Standards Track [Page 71] + +RFC 2848 The PINT Service Protocol June 2000 + + +Authors' Addresses + + Scott Petrack + MetaTel, Inc. + 45 Rumford Ave. + Waltham MA 02453-3844 + + Phone: +1 (781)-891-9000 + EMail: scott.petrack@metatel.com + + + Lawrence Conroy + Siemens Roke Manor Research + Roke Manor + Old Salisbury Lane + Romsey, Hampshire + U.K. SO51 0ZN + + Phone: +44 (1794) 833666 + EMail: lwc@roke.co.uk + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + +Petrack & Conroy Standards Track [Page 72] + +RFC 2848 The PINT Service Protocol June 2000 + + +Full Copyright Statement + + Copyright (C) The Internet Society (2000). All Rights Reserved. + + This document and translations of it may be copied and furnished to + others, and derivative works that comment on or otherwise explain it + or assist in its implementation may be prepared, copied, published + and distributed, in whole or in part, without restriction of any + kind, provided that the above copyright notice and this paragraph are + included on all such copies and derivative works. However, this + document itself may not be modified in any way, such as by removing + the copyright notice or references to the Internet Society or other + Internet organizations, except as needed for the purpose of + developing Internet standards in which case the procedures for + copyrights defined in the Internet Standards process must be + followed, or as required to translate it into languages other than + English. + + The limited permissions granted above are perpetual and will not be + revoked by the Internet Society or its successors or assigns. + + This document and the information contained herein is provided on an + "AS IS" basis and THE INTERNET SOCIETY AND THE INTERNET ENGINEERING + TASK FORCE DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING + BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION + HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED WARRANTIES OF + MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. + +Acknowledgement + + Funding for the RFC Editor function is currently provided by the + Internet Society. + + + + + + + + + + + + + + + + + + + +Petrack & Conroy Standards Track [Page 73] + -- cgit v1.2.3