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+.pl 10.0i
+.po 0
+.ll 7.2i
+.lt 7.2i
+.nr LL 7.2i
+.nr LT 7.2i
+.ds LF Riikonen
+.ds RF FORMFEED[Page %]
+.ds CF
+.ds LH Internet Draft
+.ds RH 17 June 2003
+.ds CH
+.na
+.hy 0
+.in 0
+.nf
+Network Working Group P. Riikonen
+Internet-Draft
+draft-riikonen-flags-payloads-03.txt 17 June 2003
+Expires: 17 December 2003
+
+.in 3
+
+.ce 2
+SILC Message Flag Payloads
+<draft-riikonen-flags-payloads-03.txt>
+
+.ti 0
+Status of this Memo
+
+This document is an Internet-Draft and is in full conformance with
+all provisions of Section 10 of RFC 2026. Internet-Drafts are
+working documents of the Internet Engineering Task Force (IETF), its
+areas, and its working groups. Note that other groups may also
+distribute working documents as Internet-Drafts.
+
+Internet-Drafts are draft documents valid for a maximum of six months
+and may be updated, replaced, or obsoleted by other documents at any
+time. It is inappropriate to use Internet-Drafts as reference
+material or to cite them other than as "work in progress."
+
+The list of current Internet-Drafts can be accessed at
+http://www.ietf.org/ietf/1id-abstracts.txt
+
+The list of Internet-Draft Shadow Directories can be accessed at
+http://www.ietf.org/shadow.html
+
+The distribution of this memo is unlimited.
+
+
+.ti 0
+Abstract
+
+This memo describes the data payloads associated with the SILC Message
+Flags, as defined in the SILC Packet Protocol specification [SILC2]. The
+purpose of the Message Flags is to augment the function of the Message
+Payload used to send both private and channel messages, by allowing the
+sender to tell the receiver what type of data the payload includes, and
+how the data should be processed. Some of the Message Flags may define
+additional payloads to be associated with the flag, and this memo
+describes these payloads.
+
+
+
+
+
+
+
+
+.ti 0
+Table of Contents
+
+.nf
+1 Introduction .................................................. 2
+ 1.1 Requirements Terminology .................................. 2
+2 SILC Message Flags ............................................ 2
+3 SILC Message Flag Payloads .................................... 3
+ 3.1 SILC_MESSAGE_FLAG_REQUEST ................................. 3
+ 3.2 SILC_MESSAGE_FLAG_REPLY ................................... 3
+ 3.3 SILC_MESSAGE_FLAG_SIGNED .................................. 4
+ 3.4 SILC_MESSAGE_FLAG_DATA .................................... 6
+4 Security Considerations ....................................... 7
+5 References .................................................... 8
+6 Author's Address .............................................. 8
+7 Full Copyright Statement ...................................... 9
+
+
+.ti 0
+1. Introduction
+
+The Secure Internet Live Conferencing [SILC1] supports sending binary
+messages between users in the network. To make the data sending, and
+processing at the receiver's end as simple as possible the SILC defines
+Message Flags to the Message Payload [SILC2] that is used to send private
+and channel messages, which can help the receiver to decide how the data
+is encoded, and how it should be interpreted. Some of the Message Flags
+may define additional payloads to be associated with the flag, but the
+[SILC2] does not define them. This memo defines the payloads for those
+Message Flags that was marked to include additional payloads in [SILC2].
+
+By defining the payloads for the Message Flags the Message Payload
+can be augmented to support any kind of data, which can be easily
+interpreted at the receiver end. For example, it would be possible to
+send audio stream, video stream, image files and HTML pages as messages,
+and the receiver can either choose to ignore the message or to process
+it, or to perhaps pass the message to some application for processing.
+Without specific payloads for Message Flags it is almost impossible for
+the receiver to interpret binary data from the payload.
+
+
+.ti 0
+1.1 Requirements Terminology
+
+The keywords MUST, MUST NOT, REQUIRED, SHOULD, SHOULD NOT, RECOMMENDED,
+MAY, and OPTIONAL, when they appear in this document, are to be
+interpreted as described in [RFC2119].
+
+
+.ti 0
+2 SILC Message Flags
+
+The Message Flags was added to the SILC protocol for the reason that SILC
+provides sending binary data as messages between users, and entities in
+the network, and interpreting pure binary data is almost impossible.
+With the flags the purpose, the reason, and the way the message is
+supposed to be interpreted can be told to the recipient. Other
+conferencing protocols which are usually ASCII based protocols do not have
+such problems since they do not generally support sending of binary data
+at all, or require encoding of the data before it can be sent over the
+network.
+
+The Message Payload in SILC can have flags that can augment the function
+of the payload. The flags can tell for example that the message is a
+request, or a reply to an earlier received request. They can tell that
+the message is some action that the sender is performing, or they can tell
+that the message is an auto reply, or that it is explicitly digitally
+signed by the sender.
+
+The problem of Message Flags is that the space for flags mask is only 16
+bits, so there is a limited number of flags available. For this reason
+having a flag that defines a generic way of sending any kind of data as
+a message, and can be easily interpreted at the receiver's end is important.
+For this reason the flag SILC_MESSAGE_FLAG_DATA was added to the protocol
+which can represent any data. This memo describe how this flag is used
+and how the associated payload is constructed and processed. This memo
+also describes payloads for all the other flags that can have associated
+payloads.
+
+
+.ti 0
+3 SILC Message Flag Payloads
+
+The [SILC2] defines the flags which may have associated payloads. This
+section will list these flags and define the payloads.
+
+
+.ti 0
+3.1 SILC_MESSAGE_FLAG_REQUEST
+
+Currently this flag can be used in the context of application specific,
+service specific or vendor specific requests, and the data payload type is
+dependent of this context. Therefore, payload is not defined for this
+flag in this memo. This flag may also be masked with some other flag in
+the message payload, including with some other flag that defines
+additional payload.
+
+
+.ti 0
+3.2 SILC_MESSAGE_FLAG_REPLY
+
+Currently this flag can be used in the context of application specific,
+service specific or vendor specific replies, and the data payload type is
+dependent of this context. Therefore, payload is not defined for this
+flag in this memo. This flag may also be masked with some other flag in
+the message payload, including with some other flag that defines
+additional payload.
+
+
+.ti 0
+3.3 SILC_MESSAGE_FLAG_SIGNED
+
+This flag is used to tell the recipient that the sent message is
+digitally signed by the sender, and that the recipient should verify
+the signature to verify the true authenticity of the received message.
+All message payloads in SILC provides message authentication code (MAC)
+which can be used to verify that the sender produced and sent the message.
+Even so, signing messages digitally can be used to verify the authenticity
+of the message when recipient trusts the sender and to provide
+non-repudiation.
+
+This flag defines a payload which is used to deliver the actual message,
+sender's public key and the digital signature. The payload for
+SILC_MESSAGE_FLAG_SIGNED is as follows:
+
+.in 5
+.nf
+ 1 2 3
+ 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+| |
+~ Start of Message Payload ~
+| |
++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+| |
+~ Public Key Payload ~
+| |
++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+| Signature Data Length | |
++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ +
+| |
+~ Signature Data ~
+| |
++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+| |
+~ Initial Vector * ~
+| |
++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+| |
+~ MAC * ~
+| |
++-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
+.in 3
+
+.ce
+Figure 1: SILC_MESSAGE_FLAG_SIGNED Payload
+
+
+.in 6
+o Start of Message Payload (variable length) - This is the
+ start of the Message Payload without the IV and MAC fields,
+ since those fields are appended at the end of this payload.
+
+o Public Key Payload (variable length) - This includes the
+ Public Key Payload [SILC2] which can be used to deliver the
+ sender's public key (or certificate). It also indicates the
+ type of the public key (or certificate) which the recipient
+ use to identify how the signature must be verified. This
+ payload must always be present but it is not required to
+ include the public key data. The Public Key Type field in
+ the Public Key Payload MUST be set to the correct type of
+ the key, even if the actual public key data is not included.
+
+o Signature Data Length (2 bytes) - Indicates the length of
+ the Signature Data field not including any other field.
+
+o Signature Data (variable length) - Includes the actual
+ signature data. The signature computation and encoding
+ is key type specific. See [SILC3] for all key types, and
+ their respective references for how to compute and encode
+ the signature.
+
+o Initial Vector (variable length) - the IV of the Message
+ Payload as defined in [SILC2]. This field is not encrypted.
+
+o MAC (variable length) - the MAC of the Message Payload as
+ defined in [SILC2]. The MAC is computed after encryption
+ and after signature computation. All data in the Message
+ Payload and this payload, including the IV field are
+ included in the MAC computation. This field is not
+ encrypted.
+.in 3
+
+How the data is processed before it is signed is key type specific.
+The actual data that to be signed MUST be the plaintext message
+payload before encryption. The data to be signed is concatenation
+of the Start of Message Payload field and the Public Key Payload,
+in that order. Any other fields are not included for signature data.
+Before signing, the data is always processed, usually hashed. The
+hash function to be used is defined in the key type specific
+definitions. See the key type specific references in [SILC3].
+
+If the public key of the sender is included in the payload the
+recipient SHOULD verify it before accepting the public key. Recipient
+SHOULD verify the signature before accepting and caching the public key.
+With certificates the certificate verification may be done before
+verifying the signature. If the signature verification fails the
+message should still be displayed. The end user should also be
+notified about the result of the signature verification.
+
+To make the packet size smaller implementations may not want to
+include the actual public key in all signed messages. Sending the
+public key in the first message is usually sufficient. Subsequent
+messages may include empty Public Key Payload with an indication of
+the public key type.
+
+Implementations that do not support this flag can still process the
+message payload in normal manner. These implementations merely parse
+the decrypted payload in normal manner and ignore the extra data in
+the payload. They can do this by extracting the MAC and the IV from
+the end of the data buffer and thus ignoring the data between start of
+the Message Payload and the Initial Vector field.
+
+This flag MAY be masked with any other Message Flag including those that
+define additional payloads. As long as the defined payload resides in
+the data area of the message payload this flag may be masked with the
+other flags.
+
+
+.ti 0
+3.4 SILC_MESSAGE_FLAG_DATA
+
+This flag is used to represent any data as a message in the way that it
+can be easily interpreted by the recipient. This flag is used to send
+MIME objects as messages from the sender to the receiver. The MIME as
+defined in [RFC2045], [RFC2046], [RFC2047], [RFC2048] and [RFC2049] is
+well established protocol for sending different kind of data with many
+applications and protocols. It support dozens of different media types
+and encodings, and for this reason is ideal for sending data in SILC
+message payloads as well.
+
+When the receiver has checked that the message payload includes the
+SILC_MESSAGE_FLAG_DATA flag, it may then start parsing the MIME header.
+It would also be possible to pass the message to some application which
+can already interpret MIME objects. If the receiver does not support the
+media type received in the MIME header, it SHOULD be treated as
+"application/octet-stream". The receiver MAY also ignore and discard
+messages that it does not support.
+
+The MIME header MUST be at the start of the data area of the Message
+Payload. The MIME header received in the data area of the payload SHOULD
+have the MIME-Version field at first and then Content-Type field. The
+MIME-Version field is not required to be present in each body part of
+multipart entity. Additionally the header MAY also include any other
+MIME compliant headers. The character encoding for the MIME Header
+strings inside the message payload is US-ASCII, as defined in [RFC2045].
+The actual MIME object may define additional character sets or encodings
+for the data it delivers.
+
+Hence, the MIME Header in the message payload may be as follows:
+
+.in 8
+.nf
+MIME-Version: 1.0\\r\\n
+Content-Type: discrete/composite\\r\\n
+Content-Transfer-Encoding: binary\\r\\n
+\\r\\n
+.in 3
+
+The Content-Transfer-Encoding field behaves as defined in [RFC2045] and
+defines the encoding of the data in the MIME object. The preferred data
+encoding with SILC is "binary". However, many MIME media types defines
+their preferred encoding and they may be used if binary encoding is not
+suitable.
+
+When sending large amounts of traffic or large files as MIME objects the
+limits of the SILC Packet needs to be taken into consideration. The
+maximum length of SILC Packet is 2^16 bytes, and larger messages would
+need to be fragmented. MIME provides way of fragmenting and reassembling
+messages, and it is to be done with SILC as defined in [RFC2046]. The
+MIME fragmentation is defined for gateway usage, but in case of SILC the
+sender (for example, a client) may also start sending fragmented MIME
+objects.
+
+This flag SHOULD NOT be masked with some other Message Flag that defines
+payloads for message data. Generally this sort of setting would be
+impossible for the receiver to interpret. However, flags that does not
+define any specific payloads MAY be masked with this flag as well. For
+example, this flag could be masked also with SILC_MESSAGE_FLAG_REQUEST flag.
+It also can be masked with SILC_MESSAGE_FLAG_SIGNED flag since it does not
+define data specific payload.
+
+
+.ti 0
+4 Security Considerations
+
+In case of SILC_MESSAGE_FLAG_DATA the implementors should pay special
+attention to the security implications of any media type that can cause
+the remote execution of any actions in the receiver's environment. The
+[RFC2046] and [RFC2048] discusses more MIME specific security
+considerations. Even though SILC provides secured messages, in case of
+MIME which can be used to transfer files and documents which are stored in
+the receiver's local environment, securing separately the MIME object may
+be desired. For example, augmenting the MIME support in SILC messages to
+support S/MIME may be desired in some implementations.
+
+
+
+
+.ti 0
+5 References
+
+[SILC1] Riikonen, P., "Secure Internet Live Conferencing (SILC),
+ Protocol Specification", Internet Draft, May 2002.
+
+[SILC2] Riikonen, P., "SILC Packet Protocol", Internet Draft,
+ May 2002.
+
+[SILC3] Riikonen, P., "SILC Key Exchange and Authentication
+ Protocols", Internet Draft, May 2002.
+
+[RFC2045] Freed, N., et al., "Multipurpose Internet Mail Extensions
+ (MIME) Part One: Format of Internet Message Bodies",
+ Standards Track, RFC 2045, November 1996.
+
+[RFC2046] Freed, N., et al., "Multipurpose Internet Mail Extensions
+ (MIME) Part Two: Media Types", Standards Track, RFC 2045,
+ November 1996.
+
+[RFC2047] Moore K., "MIME (Multipurpose Internet Mail Extensions)
+ Part Three: Message Header Extensions for Non-ASCII Text"
+ Standards Track, RFC 2047, November 1996.
+
+[RFC2048] Freed, N., et al., "Multipurpose Internet Mail Extensions
+ (MIME) Part Four: Registration Procedures", Standards
+ Track, RFC 2048, November 1996.
+
+[RFC2049] Freed, N., et al., "Multipurpose Internet Mail Extensions
+ (MIME) Part Five: Conformance Criteria and Examples",
+ Standards Track, RFC 2049, November 1996.
+
+[RFC2119] Bradner, S., "Key Words for use in RFCs to Indicate
+ Requirement Levels", BCP 14, RFC 2119, March 1997.
+
+
+
+.ti 0
+6 Author's Address
+
+Pekka Riikonen
+Snellmaninkatu 34 A 15
+70100 Kuopio
+Finland
+
+EMail: priikone@iki.fi
+
+
+
+
+.ti 0
+7 Full Copyright Statement
+
+Copyright (C) The Internet Society (2003). 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.
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