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/rfc2557.txt | 1571 +++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 1571 insertions(+) create mode 100644 doc/rfc/rfc2557.txt (limited to 'doc/rfc/rfc2557.txt') diff --git a/doc/rfc/rfc2557.txt b/doc/rfc/rfc2557.txt new file mode 100644 index 0000000..bc37878 --- /dev/null +++ b/doc/rfc/rfc2557.txt @@ -0,0 +1,1571 @@ + + + + + + +Network Working Group J. Palme +Request for Comments: 2557 Stockholm University/KTH +Obsoletes: 2110 A. Hopmann +Category: Standards Track Microsoft Corporation + N. Shelness + Lotus Development Corporation + March 1999 + + + MIME Encapsulation of Aggregate Documents, such as HTML (MHTML) + +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 (1999). All Rights Reserved. + +Abstract + + HTML [RFC 1866] defines a powerful means of specifying multimedia + documents. These multimedia documents consist of a text/html root + resource (object) and other subsidiary resources (image, video clip, + applet, etc. objects) referenced by Uniform Resource Identifiers + (URIs) within the text/html root resource. When an HTML multimedia + document is retrieved by a browser, each of these component resources + is individually retrieved in real time from a location, and using a + protocol, specified by each URI. + + In order to transfer a complete HTML multimedia document in a single + e-mail message, it is necessary to: a) aggregate a text/html root + resource and all of the subsidiary resources it references into a + single composite message structure, and b) define a means by which + URIs in the text/html root can reference subsidiary resources within + that composite message structure. + + This document a) defines the use of a MIME multipart/related + structure to aggregate a text/html root resource and the subsidiary + resources it references, and b) specifies a MIME content-header + (Content-Location) that allow URIs in a multipart/related text/html + root body part to reference subsidiary resources in other body parts + of the same multipart/related structure. + + + + +Palme, et al. Standards Track [Page 1] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + While initially designed to support e-mail transfer of complete + multi-resource HTML multimedia documents, these conventions can also + be employed to resources retrieved by other transfer protocols such + as HTTP and FTP to retrieve a complete multi-resource HTML multimedia + document in a single transfer or for storage and archiving of + complete HTML-documents. + + Differences between this and a previous version of this standard, + which was published as RFC 2110, are summarized in chapter 12. + +Table of Contents + + 1. Introduction ................................................. 3 + 2. Terminology ................................................. 4 + 2.1 Conformance requirement terminology ...................... 4 + 2.2 Other terminology ........................................ 4 + 3. Overview ..................................................... 6 + 4. The Content-Location MIME Content Header ..................... 6 + 4.1 MIME content headers ..................................... 6 + 4.2 The Content-Location Header .............................. 7 + 4.3 URIs of MHTML aggregates ................................. 8 + 4.4 Encoding and decoding of URIs in MIME header fields ...... 8 + 5. Base URIs for resolution of relative URIs .................... 9 + 6. Sending documents without linked objects ..................... 10 + 7. Use of the Content-Type "multipart/related" .................. 11 + 8. Usage of Links to Other Body Parts ........................... 13 + 8.1 General principle ........................................ 13 + 8.2 Resolution of URIs in text/html body parts ............... 13 + 8.3 Use of the Content-ID header and CID URLs ................ 14 + 9. Examples ..................................................... 14 + 9.1 Example of a HTML body without included linked objects ... 15 + 9.2 Example with an absolute URI to an embedded GIF picture .. 15 + 9.3 Example with relative URIs to embedded GIF pictures ...... 16 + 9.4 Example with a relative URI and no BASE available ........ 17 + 9.5 Example using CID URL and Content-ID header to an embedded + GIF picture .............................................. 18 + 9.6 Example showing permitted and forbidden references between + nested body parts ........................................ 19 + 10. Character encoding issues and end-of-line issues ............ 21 + 11. Security Considerations ..................................... 22 + 11.1 Security considerations not related to caching .......... 22 + 11.2 Security considerations related to caching .............. 23 + 12. Differences as compared to the previous version of this + proposed standard in RFC 2110 ............................... 24 + 13. Acknowledgments ............................................. 24 + 14. References .................................................. 25 + 15. Authors' Addresses .......................................... 27 + 16. Full Copyright Statement .................................... 28 + + + +Palme, et al. Standards Track [Page 2] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + +1. Introduction + + There are a number of document formats (Hypertext Markup Language + [HTML2], Extended Markup Language [XML], Portable Document format + [PDF] and Virtual Reality Markup Language [VRML]) that specify + documents consisting of a root resource and a number of distinct + subsidiary resources referenced by URIs within that root resource. + There is an obvious need to be able to send such multi-resource + documents in e-mail [SMTP], [RFC822] messages. + + The standard defined in this document specifies how to aggregate such + multi-resource documents in MIME-formatted [MIME1 to MIME5] messages + for precisely this purpose. + + While this specification was developed to satisfy the specific + aggregation requirements of multi-resource HTML documents, it may + also be applicable to other multi-resource document representations + linked by URIs. While this is the case, there is no requirement that + implementations claiming conformance to this standard be able to + handle any URI linked document representations other than those whose + root is HTML. + + This aggregation into a single message of a root resource and the + subsidiary resources it references may also be applicable to + resources retrieved by other protocols such as HTTP or FTP, or to the + archiving of complete web pages as they appeared at a particular + point in time. + + An informational RFC will be published as a supplement to this + standard. The informational RFC will discuss implementation methods + and some implementation problems. Implementers are strongly + recommended to read this informational RFC when developing + implementations of this standard. You can find it through URL + http://www.dsv.su.se/~jpalme/ietf/mhtml.html. + + This standard specifies that body parts to be referenced can be + identified either by a Content-ID (containing a Message-ID value) or + by a Content-Location (containing an arbitrary URL). The reason why + this standard does not only recommend the use of Content-ID-s is that + it should be possible to forward existing web pages via e-mail + without having to rewrite the source text of the web pages. Such + rewriting has several disadvantages, one of them that security + checksums will probably be invalidated. + + + + + + + + +Palme, et al. Standards Track [Page 3] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + +2. Terminology + +2.1 Conformance requirement terminology + + 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 [IETF-TERMS]. + + An implementation is not compliant if it fails to satisfy one or more + of the MUST requirements for the protocols it implements. An + implementation that satisfies all the MUST and all the SHOULD + requirements for its protocols is said to be "unconditionally + compliant"; one that satisfies all the MUST requirements but not all + the SHOULD requirements for its protocols is said to be + "conditionally compliant." + +2.2 Other terminology + + Most of the terms used in this document are defined in other RFCs. + + Absolute URI, See Relative Uniform Resource Locators + AbsoluteURI [RELURL]. + + CID See Message/External Body Content-ID [MIDCID]. + + Content-Base This header was specified in RFC 2110, but has + been removed in this new version of the MHTML + standard. + + Content-ID See Message/External Body Content-ID [MIDCID]. + + Content-Location MIME message or content part header with one + URI of the MIME message or content part body, + defined in section 4.2 below. + + Content-Transfer- Conversion of a text into 7-bit octets as + Encoding specified in [MIME1] chapter 6. + + CR See [RFC822]. + + CRLF See [RFC822]. + + Displayed text The text shown to the user reading a document + with a web browser. This may be different from + the HTML markup, see the definition of HTML + markup below. + + + + + +Palme, et al. Standards Track [Page 4] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + Header Field in a message or content heading + specifying the value of one attribute. + + Heading Part of a message or content before the first + CRLFCRLF, containing formatted fields with + attributes of the message or content. + + HTML See HTML 2 specification [HTML2]. + + HTML Aggregate HTML objects together with some or all objects, + objects to which the HTML object contains hyperlinks, + directly or indirectly. + + HTML markup A file containing HTML encodings as specified + in [HTML] which may be different from the + displayed text which a person using a web + browser sees. For example, the HTML markup may + contain "<" where the displayed text + contains the character "<". + + LF See [RFC822]. + + MIC Message Integrity Codes, codes use to verify + that a message has not been modified. + + MIME See the MIME specifications [MIME1 to MIME5]. + + MUA Messaging User Agent. + + PDF Portable Document Format, see [PDF]. + + Relative URI, See HTML 2 [HTML2] and RFC 1808 [RELURL]. + RelativeURI + + URI, absolute and See RFC 1866 [HTML2]. + relative + + URL See RFC 1738 [URL]. + + URL, relative See Relative Uniform Resource Locators [RELURL]. + + VRML See Virtual Reality Markup Language [VRML]. + + + + + + + + + +Palme, et al. Standards Track [Page 5] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + +3. Overview + + An aggregate document is a MIME-encoded message that contains a root + resource (object) as well as other resources linked to it via URIs. + These other resources may be required to display a multimedia + document based on the root resource (inline pictures, style sheets, + applets, etc.), or be the root resources of other multimedia + documents. It is important to keep in mind that aggregate documents + need to satisfy the differing needs of several audiences. + + Mail sending agents might send aggregate documents as an encoding of + normal day-to-day electronic mail. Mail sending agents might also + send aggregate documents when a user wishes to mail a particular + document from the web to someone else. Finally mail sending agents + might send aggregate documents as automatic responders, providing + access to WWW resources for non-IP connected clients. Also with other + protocols such as HTTP or FTP, there may sometimes be a need to + retrieve aggregate documents. Receiving agents also have several + differing needs. Some receiving agents might be able to receive an + aggregate document and display it just as any other text content type + would be displayed. Others might have to pass this aggregate + document to a browsing program, and provisions need to be made to + make this possible. + + Finally several other constraints on the problem arise. It is + important that it be possible for a document to be signed and for it + to be transmitted and displayed without breaking the message + integrity (MIC) checksum that is part of the signature. + +4. The Content-Location MIME Content Header + +4.1 MIME content headers + + In order to resolve URI references to resources in other body parts, + one MIME content header is defined, Content-Location. This header can + occur in any message or content heading. + + The syntax for this header is, using the syntax definition tools from + [ABNF]: + + quoted-pair = ("\" text) + + text = %d1-9 / ; Characters excluding CR and LF + %d11-12 / + %d14-127 + + WSP = SP / HTAB ; Whitespace characters + + + + +Palme, et al. Standards Track [Page 6] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + FWS = ([*WSP CRLF] 1*WSP) ; Folding white-space + + ctext = NO-WS-CTL / ; Non-white-space controls + %d33-39 / ; The rest of the US-ASCII + %d42-91 / ; characters not including "(", + %d93-127 ; ")", or "\" + + comment = "(" *([FWS] (ctext / quoted-pair / comment)) + [FWS] ")" + + CFWS = *([FWS] comment) (([FWS] comment) / FWS) + + content-location = "Content-Location:" [CFWS] URI [CFWS] + + URI = absoluteURI | relativeURI + + where URI is restricted to the syntax for URLs as defined in Uniform + Resource Locators [URL] until IETF specifies other kinds of URIs. + +4.2 The Content-Location Header + + A Content-Location header specifies an URI that labels the content of + a body part in whose heading it is placed. Its value CAN be an + absolute or a relative URI. Any URI or URL scheme may be used, but + use of non-standardized URI or URL schemes might entail some risk + that recipients cannot handle them correctly. + + An URI in a Content-Location header need not refer to an resource + which is globally available for retrieval using this URI (after + resolution of relative URIs). However, URI-s in Content-Location + headers (if absolute, or resolvable to absolute URIs) SHOULD still be + globally unique. + + A Content-Location header can thus be used to label a resource which + is not retrievable by some or all recipients of a message. For + example a Content-Location header may label an object which is only + retrievable using this URI in a restricted domain, such as within a + company-internal web space. A Content-Location header can even + contain a fictitious URI. Such an URI need not be globally unique. + + A single Content-Location header field is allowed in any message or + content heading, in addition to a Content-ID header (as specified in + [MIME1]) and, in Message headings, a Message-ID (as specified in + [RFC822]). All of these constitute different, equally valid body part + labels, and any of them may be used to satisfy a reference to a body + part. Multiple Content-Location header fields in the same message + heading are not allowed. + + + + +Palme, et al. Standards Track [Page 7] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + Example of a multipart/related structure containing body parts with + both Content-Location and Content-ID labels: + + Content-Type: multipart/related; boundary="boundary-example"; + type="text/html" + + --boundary-example + + Content-Type: text/html; charset="US-ASCII" + + ... ... ... ... + ... ... ... ... + + --boundary-example + Content-Type: image/gif + Content-ID: <97116092511xyz@foo.bar.net> + Content-Location: fiction1/fiction2 + + --boundary-example + Content-Type: image/gif + Content-ID: <97116092811xyz@foo.bar.net> + Content-Location: fiction1/fiction3 + + --boundary-example-- + +4.3 URIs of MHTML aggregates + + The URI of an MHTML aggregate is not the same as the URI of its root. + The URI of its root will directly retrieve only the root resource + itself, even if it may cause a web browser to separately retrieve + in-line linked resources. If a Content-Location header field is used + in the heading of a multipart/related, this Content-Location SHOULD + apply to the whole aggregate, not to its root part. + + When an URI referring to an MHTML aggregate is used to retrieve this + aggregate, the set of resources retrieved can be different from the + set of resources retrieved using the Content-Locations of its parts. + For example, retrieving an MHTML aggregate may return an old version, + while retrieving the root URI and its in-line linked objects may + return a newer version. + +4.4 Encoding and decoding of URIs in MIME header fields + +4.4.1 Encoding of URIs containing inappropriate characters + + Some documents may contain URIs with characters that are + inappropriate for an RFC 822 header, either because the URI itself + has an incorrect syntax according to [URL] or the URI syntax standard + + + +Palme, et al. Standards Track [Page 8] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + has been changed to allow characters not previously allowed in MIME + headers. These URIs cannot be sent directly in a message header. If + such a URI occurs, all spaces and other illegal characters in it must + be encoded using one of the methods described in [MIME3] section 4. + This encoding MUST only be done in the header, not in the HTML text. + Receiving clients MUST decode the [MIME3] encoding in the heading + before comparing URIs in body text to URIs in Content-Location + headers. + + The charset parameter value "US-ASCII" SHOULD be used if the URI + contains no octets outside of the 7-bit range. If such octets are + present, the correct charset parameter value (derived e.g. from + information about the HTML document the URI was found in) SHOULD be + used. If this cannot be safely established, the value "UNKNOWN-8BIT" + [RFC 1428] MUST be used. + + Note, that for the matching of URIs in text/html body parts to URIs + in Content-Location headers, the value of the charset parameter is + irrelevant, but that it may be relevant for other purposes, and that + incorrect labeling MUST, therefore, be avoided. Warning: Irrelevance + of the charset parameter may not be true in the future, if different + character encodings of the same non-English filename are used in + HTML. + +4.4.2 Folding of long URIs + + Since MIME header fields have a limited length and long URIs can + result in Content-Location headers that exceed this length, Content- + Location headers may have to be folded. + + Encoding as discussed in clause 4.4.1 MUST be done before such + folding. After that, the folding can be done, using the algorithm + defined in [URLBODY] section 3.1. + +4.4.3 Unfolding and decoding of received URLs in MIME header fields + + Upon receipt, folded MIME header fields should be unfolded, and then + any MIME encoding should be removed, to retrieve the original URI. + +5. Base URIs for resolution of relative URIs + + Relative URIs inside the contents of MIME body parts are resolved + relative to a base URI using the methods for resolving relative URIs + described in [RELURL]. In order to determine this base URI, the + first-applicable method in the following list applies. + + + + + + +Palme, et al. Standards Track [Page 9] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + (a) There is a base specification inside the MIME body part + containing the relative URI which resolves relative URIs into + absolute URIs. For example, HTML provides the BASE element for + this purpose. + + (b) There is a Content-Location header in the immediately surrounding + heading of the body part and it contains an absolute URI. This + URI can serve as a base in the same way as a requested URI can + serve as a base for relative URIs within a file retrieved via + HTTP [HTTP]. + + (c) If necessary, step (b) can be repeated recursively to find a + suitable Content-Location header in a surrounding multi-part or + message heading. + + (d) If the MIME object is returned in a HTTP response, use the URI + used to initiate the request + + (e) When the methods above do not yield an absolute URI, a base URL + of "thismessage:/" MUST be employed. This base URL has been + defined for the sole purpose of resolving relative references + within a multipart/related structure when no other base URI is + specified. + + This is also described in other words in section 8.2 below. + +6. Sending documents without linked objects + + If a text/html resource (object) is sent without subsidiary + resources, to which it refers, it MAY be sent by itself. In this + case, embedding it in a multipart/related structure is not necessary. + + Such a text/html resource may either contain no URIs, or URIs which + the recipient is expected to retrieve (if possible) via a URI + specified protocol. A text/html resource may also be sent with + unresolvable links in special cases, such as when two authors + exchange drafts of unfinished resources. + + Inclusion of URIs referencing resources which the recipient has to + retrieve via an URI specified protocol may not work for some + recipients. This is because not all e-mail recipients have full + Internet connectivity, or because URIs which work for a sender will + not work for a recipient. This occurs, for example, when an URI + refers to a resource within a company-internal network that is not + accessible from outside the company. + + + + + + +Palme, et al. Standards Track [Page 10] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + +7. Use of the Content-Type "multipart/related" + + If a message contains one or more MIME body parts containing URIs and + also contains as separate body parts, resources, to which these URIs + (as defined, for example, in HTML 2.0 [HTML2]) refer, then this whole + set of body parts (referring body parts and referred-to body parts) + SHOULD be sent within a multipart/related structure as defined in + [REL]. + + Even though headers can occur in a message that lacks an associated + multipart/related structure, this standard only covers their use for + resolution of URIs between body parts inside a multipart/related + structure. This standard does cover the case where a resource in a + nested multipart/related structure contains URIs that reference MIME + body parts in another multipart/related structure, in which it is + enclosed. This standard does not cover the case where a resource in a + multipart/related structure contains URIs that reference MIME body + parts in another parallel or nested multipart/related structure, or + in another MIME message, even if methods similar to those described + in this standard are used. Implementers who employ such URIs are + warned that receiving agents implementing this standard may not be + able to process such references. + + When the start body part of a multipart/related structure is an + atomic object, such as a text/html resource, it SHOULD be employed as + the root resource of that multipart/related structure. When the start + body part of a multipart/related structure is a multipart/alternative + structure, and that structure contains at least one alternative body + part which is a suitable atomic object, such as a text/html resource, + then that body part SHOULD be employed as the root resource of the + aggregate document. Implementers are warned, however, that some + receiving agents treat multipart/alternative as if it had been + multipart/mixed (even though MIME [MIME1] requires support for + multipart/alternative). + + [REL] specifies that a type parameter is mandatory in a "Content- + Type: multipart/related" header, and requires that it be employed to + specify the type of the multipart/related start object. Thus, the + type parameter value shall be "multipart/alternative", when the start + part is of "Content-type multipart/alternative", even if the actual + root resource is of type "text/html". In addition, if the + multipart/related start object is not the first body part in a + multipart/related structure, [REL] further requires that its + Content-ID MUST be specified as the value of a start parameter in the + "Content-Type: multipart/related" header. + + + + + + +Palme, et al. Standards Track [Page 11] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + When rendering a resource in a multipart/related structure, URI + references within that resource can be satisfied by body parts within + the same multipart/related structure (see section 8.2 below). This is + useful: + + (a) For those recipients who only have email but not full Internet + access. + + (b) For those recipients who for other reasons, such as firewalls or + the use of company-internal links, cannot retrieve URI referenced + resources via URI specified protocols. + + Note, that this means that you can, via e-mail, send text/html + objects which includes URIs which the recipient cannot resolve + via HTTP or other connectivity-requiring URIs. + + (c) To send a document whose content is preserved even if the + resources to which embedded URIs refer are later changed or + deleted. + + (d) For resources which are not available for protocol based + retrieval. + + (e) To speed up access. + + When a sending MUA sends objects which were retrieved from the WWW, + it SHOULD maintain their WWW URIs. It SHOULD not transform these URIs + into some other URI form prior to transmitting them. This will allow + + the receiving MUA to both verify MICs included with the message, as + well as verify the documents against their WWW counterpoints, if this + is appropriate. + + In certain cases this will not work - for example, if a resource + contains URIs as parameters to objects and applets. In such a case, + it might be better to rewrite the document before sending it. This + problem is discussed in more detail in the informational RFC which + will be published as a supplement to this standard. + + Within a multipart/related structure, each body part MUST have, if + assigned, a different Content-ID header value and a Content-Location + header field values which resolve to a different URI. + + Two body parts in the same multipart/related structure can have the + same relative Content-Location header value, only if when resolved to + absolute URIs they become different. + + + + + +Palme, et al. Standards Track [Page 12] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + +8. Usage of Links to Other Body Parts + +8.1 General principle + + A body part, such as a text/html body part, may contain URIs that + reference resources which are included as body parts in the same + message -- in detail, as body parts within the same multipart/related + structure. Often such URI linked resources are meant to be displayed + inline to the viewer of the referencing body part; for example, + objects referenced with the SRC attribute of the IMG element in HTML + 2.0 [HTML2]. New elements and attributes with this property are + proposed in the ongoing development of HTML (examples: applet, frame, + profile, OBJECT, classid, codebase, data, SCRIPT). A sender might + also want to send a set of HTML documents which the reader can + traverse, and which are related with the attribute href of the A + element. + + If a user retrieves and displays a web page formed from a text/html + resource, and the subsidiary resources it references, and merely + saves the text/html resource, that user may not at a later time be + able to retrieve and display the web page as it appeared when saved. + The format described in this standard can be used to archive and + retrieve all of the resources required to display the web page, as it + originally appeared at a certain moment of time, in one aggregate + file. + + In order to send or store complete such messages, there is a need to + specify how a URI in one body part can reference a resource in + another body part. + +8.2 Resolution of URIs in text/html body parts + + The resolution of inline, retrieval and other kinds of URIs in + text/html body parts is performed in the following way: + + (a) Unfold multiple line header values according to [URLBODY]. Do NOT + however translate character encodings of the kind described in + [URL]. Example: Do not transform "a%2eb/c%20d" into "a/b/c d". + + (b) Remove all MIME encodings, such as content-transfer encoding and + header encodings as defined in MIME part 3 [MIME3] Do NOT however + translate character encodings of the kind described in [URL]. + Example: Do not transform "a%2eb/c%20d" into "a/b/c d". + + (c) Try to resolve all relative URIs in the HTML content and in + Content-Location headers using the procedure described in chapter + 5 above. The result of this resolution can be an absolute URI, or + an absolute URI with the base "thismessage:/" as specified in + + + +Palme, et al. Standards Track [Page 13] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + chapter 5. + + (d) For each referencing URI in a text/html body part, compare the + value of the referencing URI after resolution as described in (a) + and (b), with the URI derived from Content-ID and Content- + Location headers for other body parts within the same or a + surrounding Multipart/related structure. If the strings are + identical, octet by octet, then the referencing URI references + that body part. This comparison will only succeed if the two URIs + are identical. This means that if one of the two URIs to be + compared was a fictitious absolute URI with the base + "thismessage:/", the other must also be such a fictitious + absolute URI, and not resolvable to a real absolute URI. + + (e) If (d) fails, try to retrieve the URI referenced resource + hyperlink through ordinary Internet lookup. Resolution of URIs of + the URL-types "mid" or "cid" to other content-parts, outside the + same multipart/related structure, or in other separately sent + messages, is not covered by this standard, and is thus neither + encouraged nor forbidden. + +8.3 Use of the Content-ID header and CID URLs + + When URIs employing a CID (Content-ID) scheme as defined in [URL] and + [MIDCID] are used to reference other body parts in an MHTML + multipart/related structure, they MUST only be matched against + Content-ID header values, and not against Content-Location header + with CID: values. Thus, even though the following two headers are + identical in meaning, only the Content-ID value will be matched, and + the Content-Location value will be ignored. + + Content-ID: + Content-Location: CID: foo@bar.net + + Note: Content-IDs MUST be globally unique [MIME1]. It is thus not + permitted to make them unique only within a message or within a + single multipart/related structure. + +9. Examples + + Warning: The examples are provided for illustrative purposes only. If + there is a contradiction between the explanatory text and the + examples in this standard, then the explanatory text is normative. + + Notation: The examples contain indentation to show the structure, the + real objects should not be indented in this way. + + + + + +Palme, et al. Standards Track [Page 14] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + +9.1 Example of a HTML body without included linked objects + + The first example is the simplest form of an HTML email message. This + message does not contain an aggregate HTML object, but simply a + message with a single HTML body part. This body part contains a URI + but the messages does not contain the resource referenced by that + URI. To retrieve the resource referenced by the URI the receiving + client would need either IP access to the Internet, or an electronic + mail web gateway. + + From: foo1@bar.net + To: foo2@bar.net + Subject: A simple example + Mime-Version: 1.0 + Content-Type: text/html; charset="iso-8859-1" + Content-Transfer-Encoding: 8bit + + + + +

Acute accent

+ The following two lines look have the same screen rendering:

+ E with acute accent becomes É.
+ E with acute accent becomes É.

+ Try clicking + here.

+ + +9.2 Example with an absolute URI to an embedded GIF picture + + The second example is an HTML message which includes a single image, + referenced using the Content-Location mechanism. + + From: foo1@bar.net + To: foo2@bar.net + Subject: A simple example + Mime-Version: 1.0 + Content-Type: multipart/related; boundary="boundary-example"; + type="text/html"; start="" + + --boundary-example + Content-Type: text/html;charset="US-ASCII" + Content-ID: + + ... text of the HTML document, which might contain a URI + referencing a resource in another body part, for example + through a statement such as: + IETF logo + + --boundary-example + Content-Location: + http://www.ietf.cnri.reston.va.us/images/ietflogo.gif + Content-Type: IMAGE/GIF + Content-Transfer-Encoding: BASE64 + + R0lGODlhGAGgAPEAAP/////ZRaCgoAAAACH+PUNvcHlyaWdodCAoQykgMTk5 + NSBJRVRGLiBVbmF1dGhvcml6ZWQgZHVwbGljYXRpb24gcHJvaGliaXRlZC4A + etc... + + --boundary-example-- + +9.3 Example with relative URIs to embedded GIF pictures + + In this example, a Content-Location header field in the outermost + heading will be a base to all relative URLs, also inside the HTML + text being sent. + + From: foo1@bar.net + To: foo2@bar.net + Subject: A simple example + Mime-Version: 1.0 + Content-Location: http://www.ietf.cnri.reston.va.us/ + Content-Type: multipart/related; boundary="boundary-example"; + type="text/html" + + --boundary-example + Content-Type: text/html; charset="ISO-8859-1" + Content-Transfer-Encoding: QUOTED-PRINTABLE + + ... text of the HTML document, which might contain URIs + referencing resources in other body parts, for example through + statements such as: + + IETF logo1 + IETF logo2 + IETF logo3 + + Example of a copyright sign encoded with Quoted-Printable: =A9 + Example of a copyright sign mapped onto HTML markup: ¨ + + --boundary-example + Content-Location: + http://www.ietf.cnri.reston.va.us/images/ietflogo1.gif + ; Note - Absolute Content-Location does not require a + ; base + + + +Palme, et al. Standards Track [Page 16] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + Content-Type: IMAGE/GIF + Content-Transfer-Encoding: BASE64 + + R0lGODlhGAGgAPEAAP/////ZRaCgoAAAACH+PUNvcHlyaWdodCAoQykgMTk5 + NSBJRVRGLiBVbmF1dGhvcml6ZWQgZHVwbGljYXRpb24gcHJvaGliaXRlZC4A + etc... + + --boundary-example + Content-Location: images/ietflogo2.gif + ; Note - Relative Content-Location is resolved by base + ; specified in the Multipart/Related Content-Location heading + Content-Transfer-Encoding: BASE64 + + R0lGODlhGAGgAPEAAP/////ZRaCgoAAAACH+PUNvcHlyaWdodCAoQykgMTk5 + NSBJRVRGLiBVbmF1dGhvcml6ZWQgZHVwbGljYXRpb24gcHJvaGliaXRlZC4A + etc... + + --boundary-example + Content-Location: + http://www.ietf.cnri.reston.va.us/images/ietflogo3.gif + Content-Transfer-Encoding: BASE64 + + R0lGODlhGAGgAPEAAP/////ZRaCgoAAAACH+PUNvcHlyaWdodCAoQykgMTk5 + NSBJRVRGLiBVbmF1dGhvcml6ZWQgZHVwbGljYXRpb24gcHJvaGliaXRlZC4A + etc... + + --boundary-example-- + +9.4 Example with a relative URI and no BASE available + + From: foo1@bar.net + To: foo2@bar.net + Subject: A simple example + Mime-Version: 1.0 + Content-Type: multipart/related; boundary="boundary-example"; + type="text/html" + + --boundary-example + Content-Type: text/html; charset="iso-8859-1" + Content-Transfer-Encoding: QUOTED-PRINTABLE + + ... text of the HTML document, which might contain a URI + referencing a resource in another body part, for example + through a statement such as: + IETF logo + Example of a copyright sign encoded with Quoted-Printable: =A9 + Example of a copyright sign mapped onto HTML markup: ¨ + + + + +Palme, et al. Standards Track [Page 17] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + --boundary-example + Content-Location: ietflogo.gif + Content-Type: IMAGE/GIF + Content-Transfer-Encoding: BASE64 + + R0lGODlhGAGgAPEAAP/////ZRaCgoAAAACH+PUNvcHlyaWdodCAoQykgMTk5 + NSBJRVRGLiBVbmF1dGhvcml6ZWQgZHVwbGljYXRpb24gcHJvaGliaXRlZC4A + etc... + + --boundary-example-- + +9.5 Example using CID URL and Content-ID header to an embedded GIF + picture + + From: foo1@bar.net + To: foo2@bar.net + Subject: A simple example + Mime-Version: 1.0 + Content-Type: multipart/related; boundary="boundary-example"; + type="text/html" + + --boundary-example + Content-Type: text/html; charset="US-ASCII" + + ... text of the HTML document, which might contain a URI + referencing a resource in another body part, for example + through a statement such as: + IETF logo + + --boundary-example + Content-Location: CID:something@else ; this header is disregarded + Content-ID: + Content-Type: IMAGE/GIF + Content-Transfer-Encoding: BASE64 + + R0lGODlhGAGgAPEAAP/////ZRaCgoAAAACH+PUNvcHlyaWdodCAoQykgMTk5 + NSBJRVRGLiBVbmF1dGhvcml6ZWQgZHVwbGljYXRpb24gcHJvaGliaXRlZC4A + etc... + + --boundary-example-- + + + + + + + + + + + +Palme, et al. Standards Track [Page 18] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + +9.6 Example showing permitted and forbidden references between nested + body parts + + This example shows in which cases references are allowed between + multiple multipart/related body parts in a message. + + From: foo1@bar.net + To: foo2@bar.net + Subject: A simple example + Mime-Version: 1.0 + Content-Type: multipart/related; boundary="boundary-example-1"; + type="text/html" + + --boundary-example-1 + Content-Type: text/html;charset="US-ASCII" + Content-ID: + + The image reference below will be resolved with the image + in the next body part. + IETF logo with white background + + The image reference below cannot be resolved within this + MIME message, since it contains a reference from an outside + body part to an inside body part, which is not supported + by this standard. + IETF logo with transparent background + + The anchor reference immediately below will be resolved with + the nested text/html body part below: + + Even more info + + --boundary-example-1 + Content-Location: + http://www.ietf.cnri.reston.va.us/images/ietflogo.gif + Content-Type: IMAGE/GIF + Content-Transfer-Encoding: BASE64 + + R0lGODlhGAGgAPEAAP/////ZRaCgoAAAACH+PUNvcHlyaWdodCAoQykgMTk5 + NSBJRVRGLiBVbmF1dGhvcml6ZWQgZHVwbGljYXRpb24gcHJvaGliaXRlZC4A + etc... + + + +Palme, et al. Standards Track [Page 19] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + --boundary-example-1 + Content-Location: + http://www.ietf.cnri.reston.va.us/more-info + Content-Type: multipart/related; boundary="boundary-example-2"; + type="text/html" + --boundary-example-2 + Content-Type: text/html;charset="US-ASCII" + Content-ID: + + The image reference below will be resolved with the image + in the surrounding multipart/related above. + IETF logo with white background + + The image reference below will be resolved with the image + inside the current nested multipart/related below. + IETF logo with transparent background + + --boundary-example-2 + Content-Location: http:images/ietflogo2.gif + Content-Type: IMAGE/GIF + Content-Transfer-Encoding: BASE64 + + R0lGODlhGAGgANX/ACkpKTExMTk5OUJCQkpKSlJSUlpaWmNjY2tra3Nzc3t7e4 + SEhIyMjJSUlJycnKWlpa2trbW1tcDAwM7Ozv/eQnNzjHNzlGtrjGNjhFpae1pa + etc... + + --boundary-example-2-- + --boundary-example-1 + Content-Location: + http://www.ietf.cnri.reston.va.us/even-more-info + Content-Type: multipart/related; boundary="boundary-example-3"; + type="text/html" + --boundary-example-3 + Content-Type: text/html;charset="US-ASCII" + Content-ID: <4@foo@bar.net> + + The image reference below will be resolved with the image + inside the current nested multipart/related below. + IETF logo with shadows + + The image reference below cannot be resolved according to + this standard since references between parallel multipart/ + related structures are not supported. + IETF logo with transparent background + + + +Palme, et al. Standards Track [Page 20] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + --boundary-example-3 + Content-Location: http:images/ietflogo2d.gif + Content-Type: IMAGE/GIF + Content-Transfer-Encoding: BASE64 + + R0lGODlhGAGgANX/AMDAwCkpKTExMTk5OUJCQkpKSlJSUlpaWmNjY2tra3Nz + c3t7e4SEhIyMjJSUlJycnKWlpa2trbW1tb29vcbGxs7OztbW1t7e3ufn5+/v + etc... + + --boundary-example-3-- + --boundary-example-1-- + +10. Character encoding issues and end-of-line issues + + For the encoding of characters in HTML documents and other text + documents into a MIME-compatible octet stream, the following + mechanisms are relevant: + + - HTML [HTML2], [HTML-I18N] as an application of SGML [SGML] allows + characters to be denoted by character entities as well as by + numeric character references (e.g. "Latin small letter a with + acute accent" may be represented by "á" or "á") in the + HTML markup. + + - HTML documents, in common with other documents of the MIME + Content-Type "text", can be represented in MIME using one of + several character encodings. The MIME Content-Type "charset" + parameter value indicates the particular encoding used. For the + exact meaning and use of the "charset" parameter, please see + [MIME2] chapter 4. + + Note that the "charset" parameter refers only to the MIME + character encoding. For example, the string "á" can be sent + in MIME with "charset=US-ASCII", while the raw character "Latin + small letter a with acute accent" cannot. + + The above mechanisms are well defined and documented, and therefore + not further explained here. In sending a message, all the above + mentioned mechanisms MAY be used, and any mixture of them MAY occur + when sending the document in MIME format. Receiving user agents + (together with any Web browser they may use to display the document) + MUST be capable of handling any combinations of these mechanisms. + + Also note that: + + - Any documents including HTML documents that contain octet values + outside the 7-bit range need a content-transfer-encoding applied + before transmission over certain transport protocols [MIME1, + + + +Palme, et al. Standards Track [Page 21] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + chapter 5]. + + - The MIME standard [MIME2] requires that e-mailed documents of + "Content-Type: Text/ MUST be in canonical form before a Content- + Transfer-Encoding is applied, i.e. that line breaks are encoded as + CRLFs, not as bare CRs or bare LFs or something else. This is in + contrast to [HTTP] where section 3.6.1 allows other + representations of line breaks. + + Note that this might cause problems with integrity checks based on + checksums, which might not be preserved when moving a document from + the HTTP to the MIME environment. If a document has to be converted + in such a way that a checksum based message integrity check becomes + invalid, then this integrity check header SHOULD be removed from the + document. + + Other sources of problems are Content-Encoding used in HTTP but not + allowed in MIME, and character sets that are not able to represent + line breaks as CRLF. A good overview of the differences between HTTP + and MIME with regards to Content-Type: "text" can be found in [HTTP], + appendix C. + + Some transport mechanisms may specify a default "charset" parameter + if none is supplied [HTTP, MIME1]. Because the default differs for + different mechanisms, when HTML is transferred through e-mail, the + charset parameter SHOULD be included, rather than relying on the + default. + +11. Security Considerations + +11.1 Security considerations not related to caching + + It is possible for a message sender to misrepresent the source of a + multipart/related body part to a message recipient by labeling it + with a Content-Location URI that references another resource. + Therefore, message recipients should only interpret Content-Location + URIs as labeling a body part for the resolution of references from + body parts in the same multipart/related message structure, and not + as the source of a resource, unless this can be verified by other + means. + + URIs, especially File URIs, if used without change in a message, may + inadvertently reveal information that was not intended to be revealed + outside a particular security context. Message senders should take + care when constructing messages containing the new header fields, + defined in this standard, that they are not revealing information + outside of any security contexts to which they belong. + + + + +Palme, et al. Standards Track [Page 22] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + Some resource servers hide passwords and tickets (access tokens to + information which should not be reveled to others) and other + sensitive information in non-visible fields or URIs within a + text/html resource. If such a text/html resource is forwarded in an + email message, this sensitive information may be inadvertently + revealed to others. + + Since HTML documents can either directly contain executable content + (i.e., JavaScript) or indirectly reference executable content (The + "INSERT" specification, Java). It is exceedingly dangerous for a + receiving User Agent to execute content received in a mail message + without careful attention to restrictions on the capabilities of that + executable content. + + HTML-formatted messages can be used to investigate user behaviour, + for example to break anonymity, in ways which invade the privacy of + individuals. If you send a message with a inline link to an object + which is not itself included in the message, the recipients mailer or + browser may request that object through HTTP. The HTTP transaction + will then reveal who is reading the message. Example: A person who + wants to find out who is behind an anonymous user identity, or from + which workstation a user is reading his mail, can do this by sending + a message with an inline link and then observe from where this link + is used to request the object. + +11.2 Security considerations related to caching + + There is a well-known problem with the caching of directly retrieved + web resources. A resource retrieved from a cache may differ from that + re-retrieved from its source. This problem, also manifests itself + when a copy of a resource is delivered in a multipart/related + structure. + + When processing (rendering) a text/html body part in an MHTML + multipart/related structure, all URIs in that text/html body part + which reference subsidiary resources within the same + multipart/related structure SHALL be satisfied by those resources and + not by resources from any another local or remote source. + + Therefore, if a sender wishes a recipient to always retrieve an URI + referenced resource from its source, an URI labeled copy of that + resource MUST NOT be included in the same multipart/related + structure. + + In addition, since the source of a resource received in a + multipart/related structure can be misrepresented (see 11.1 above), + if a resource received in multipart/related structure is stored in a + cache, it MUST NOT be retrieved from that cache other than by a + + + +Palme, et al. Standards Track [Page 23] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + reference contained in a body part of the same multipart/related + structure. Failure to honor this directive will allow a + multipart/related structure to be employed as a Trojan Horse. For + example, to inject bogus resources (i.e. a misrepresentation of a + competitor's Web site) into a recipient's generally accessible Web + cache. + +12. Differences as compared to the previous version of this proposed + standard in RFC 2110 + + The specification has been changed to show that the formats described + do not only apply to multipart MIME in email, but also to multipart + MIME transferred through other protocols such as HTTP or FTP. + + In order to agree with [RELURL], Content-Location headers in + multipart Content-Headings can now be used as a base to resolve + relative URIs in their component parts, but only if no base URI can + be derived from the component part itself. Base URIs in Content- + Location header fields in inner headings have precedence over base + URIs in outer multipart headings. + + The Content-Base header, which was present in RFC 2110, has been + removed. A conservative implementor may choose to accept this header + in input for compatibility with implementations of RFC 2110, but MUST + never send any Content-Base header, since this header is not any more + a part of this standard. + + A section 4.4.1 has been added, specifying how to handle the case of + sending a body part whose URI does not agree with the correct URI + syntax. + + The handling of relative and absolute URIs for matching between body + parts have been merged into a single description, by specifying that + relative URIs, which cannot be resolved otherwise, should be handled + as if they had been given the URL "thismessage:/". + +13. Acknowledgments + + Harald T. Alvestrand, Richard Baker, Isaac Chan, Dave Crocker, Martin + J. Duerst, Lewis Geer, Roy Fielding, Ned Freed, Al Gilman, Paul + Hoffman, Andy Jacobs, Richard W. Jesmajian, Mark K. Joseph, Greg + Herlihy, Valdis Kletnieks, Daniel LaLiberte, Ed Levinson, Jay Levitt, + Albert Lunde, Larry Masinter, Keith Moore, Gavin Nicol, Martyn W. + Peck, Pete Resnick, Jon Smirl, Einar Stefferud, Jamie Zawinski, Steve + Zilles and several other people have helped us with preparing this + document. We alone take responsibility for any errors which may still + be in the document. + + + + +Palme, et al. Standards Track [Page 24] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + +14. References + + [ABNF] Crocker, D. and P. Overell, "Augmented BNF for Syntax + Specifications: ABNF", RFC 2234, November 1997. + + [CONDISP] Troost, R. and S. Dorner, "Communicating Presentation + Information in Internet Messages: The Content- + Disposition Header", RFC 2183, August 1997. + + [HOSTS] Braden, R., Ed., "Requirements for Internet Hosts -- + Application and Support", STD 3, RFC 1123, October + 1989. + + [HTML-I18N] Yergeau, F., Nicol, G. Adams, G. and M. Duerst: + "Internationalization of the Hypertext Markup + Language", RFC 2070, January 1997. + + [HTML2] Berners-Lee, T. and D. Connolly: "Hypertext Markup + Language - 2.0", RFC 1866, November 1995. + + [HTML3.2] Dave Raggett: HTML 3.2 Reference Specification, W3C + Recommendation, January 1997, at URL + http://www.w3.org/TR/REC-html32.html + + [HTTP] Berners-Lee, T., Fielding, R. and H. Frystyk, + "Hypertext Transfer Protocol -- HTTP/1.0", RFC 1945, + May 1996. + + [IETF-TERMS] Bradner, S., "Key words for use in RFCs to Indicate + Requirements Levels", BCP 14, RFC 2119, March 1997. + + [INFO] J. Palme: Sending HTML in MIME, an informational + supplement to the RFC: MIME Encapsulation of + Aggregate Documents, such as HTML (MHTML), Work in + Progress. + + [MD5] Rivest, R., "The MD5 Message-Digest Algorithm", RFC + 1321, April 1992. + + [MIDCID] Levinson, E., "Content-ID and Message-ID Uniform + Resource Locators", RFC 2387, August 1998. + + [MIME1] Freed, N. and N. Borenstein, "Multipurpose Internet + Mail Extensions (MIME) Part One: Format of Internet + Message Bodies", RFC 2045, December 1996. + + + + + + +Palme, et al. Standards Track [Page 25] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + [MIME2] Freed, N. and N. Borenstein, "Multipurpose Internet + Mail Extensions (MIME) Part Two: Media Types", RFC + 2046, December 1996. + + [MIME3] Moore, K., "MIME (Multipurpose Internet Mail + Extensions) Part Three: Message Header Extensions for + Non-ASCII Text", RFC 2047, December 1996. + + [MIME4] Freed, N., Klensin, J. and J. Postel, "Multipurpose + Internet Mail Extensions (MIME) Part Four: + Registration Procedures", RFC 2048, January 1997. + + [MIME5] Freed, N. and N. Borenstein, "Multipurpose Internet + Mail Extensions (MIME) Part Five: Conformance + Criteria and Examples", RFC 2049, November 1996. + + [NEWS] Horton, M. and R. Adams: "Standard for interchange of + USENET messages", RFC 1036, December 1987. + + [PDF] Tim Bienz and Richar Cohn: "Portable Document Format + Reference Manual", Addison-Wesley, Reading, MA, USA, + 1993, ISBN 0-201-62628-4. + + [REL] Levinson, E., "The MIME Multipart/Related Content- + Type", RFC 2389, August 1998. + + [RELURL] Fielding, R., "Relative Uniform Resource Locators", + RFC 1808, June 1995. + + [RFC822] Crocker, D., "Standard for the format of ARPA + Internet text messages." STD 11, RFC 822, August + 1982. + + [SGML] ISO 8879. Information Processing -- Text and Office - + Standard Generalized Markup Language (SGML), 1986. + + + [SMTP] Postel, J., "Simple Mail Transfer Protocol", STD 10, + RFC 821, August 1982. + + [URL] Berners-Lee, T., Masinter, L. and M. McCahill, + "Uniform Resource Locators (URL)", RFC 1738, December + 1994. + + [URLBODY] Freed, N. and K. Moore, "Definition of the URL MIME + External-Body Access-Type", RFC 2017, October 1996. + + + + + +Palme, et al. Standards Track [Page 26] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + + [VRML] Gavin Bell, Anthony Parisi, Mark Pesce: "Virtual + Reality Modeling Language (VRML) Version 1.0 Language + Specification." May 1995, + http://www.vrml.org/Specifications/. + + [XML] Extensible Markup Language, published by the World + Wide Web Consortium, URL http://www.w3.org/XML/ + +15. Authors' Addresses + + For contacting the editors, preferably write to Jacob Palme. + + Jacob Palme + Stockholm University and KTH + Electrum 230 + S-164 40 Kista, Sweden + + Phone: +46-8-16 16 67 + Fax: +46-8-783 08 29 + EMail: jpalme@dsv.su.se + + + Alex Hopmann + Microsoft Corporation + One Microsoft Way + Redmond WA 98052 + + Phone: +1-425-703-8238 + EMail: alexhop@microsoft.com + + + Nick Shelness + Lotus Development Corporation + 55 Cambridge Parkway + Cambridge MA 02142-1295 + + EMail: Shelness@lotus.com + + + Working group chairman: + + Einar Stefferud + EMail: stef@nma.com + + + + + + + + +Palme, et al. Standards Track [Page 27] + +RFC 2557 MIME Encapsulation of Aggregate Documents March 1999 + + +16. Full Copyright Statement + + Copyright (C) The Internet Society (1999). 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. + + + + + + + + + + + + + + + + + + + + + + + + +Palme, et al. Standards Track [Page 28] + -- cgit v1.2.3