MIMI R. Mahy
Internet-Draft Rohan Mahy Consulting Services
Intended status: Informational 20 December 2024
Expires: 23 June 2025
More Instant Messaging Interoperability (MIMI) message content
draft-ietf-mimi-content-05
Abstract
This document describes content semantics common in Instant Messaging
(IM) systems and describes a profile suitable for instant messaging
interoperability of messages end-to-end encrypted inside the MLS
(Message Layer Security) Protocol.
Status of This Memo
This Internet-Draft is submitted in full conformance with the
provisions of BCP 78 and BCP 79.
Internet-Drafts are working documents of the Internet Engineering
Task Force (IETF). Note that other groups may also distribute
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Internet-Drafts are draft documents valid for a maximum of six months
and may be updated, replaced, or obsoleted by other documents at any
time. It is inappropriate to use Internet-Drafts as reference
material or to cite them other than as "work in progress."
This Internet-Draft will expire on 23 June 2025.
Copyright Notice
Copyright (c) 2024 IETF Trust and the persons identified as the
document authors. All rights reserved.
This document is subject to BCP 78 and the IETF Trust's Legal
Provisions Relating to IETF Documents (https://trustee.ietf.org/
license-info) in effect on the date of publication of this document.
Please review these documents carefully, as they describe your rights
and restrictions with respect to this document. Code Components
extracted from this document must include Revised BSD License text as
described in Section 4.e of the Trust Legal Provisions and are
provided without warranty as described in the Revised BSD License.
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Table of Contents
1. Terminology . . . . . . . . . . . . . . . . . . . . . . . . . 3
2. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 4
3. Overview . . . . . . . . . . . . . . . . . . . . . . . . . . 5
3.1. Binary encoding . . . . . . . . . . . . . . . . . . . . . 5
3.2. Naming schemes . . . . . . . . . . . . . . . . . . . . . 5
3.3. Message ID . . . . . . . . . . . . . . . . . . . . . . . 6
3.4. Accepted Timestamp . . . . . . . . . . . . . . . . . . . 6
3.5. Message Container . . . . . . . . . . . . . . . . . . . . 7
3.6. Message Status Report . . . . . . . . . . . . . . . . . . 7
4. MIMI Content Container Message Semantics . . . . . . . . . . 7
4.1. Message Behavior Fields . . . . . . . . . . . . . . . . . 7
4.2. Message Ordering . . . . . . . . . . . . . . . . . . . . 9
4.3. Extension Fields . . . . . . . . . . . . . . . . . . . . 10
4.4. Message Bodies . . . . . . . . . . . . . . . . . . . . . 10
4.5. External content . . . . . . . . . . . . . . . . . . . . 13
4.6. Derived Data Values . . . . . . . . . . . . . . . . . . . 14
5. Examples . . . . . . . . . . . . . . . . . . . . . . . . . . 15
5.1. Original Message . . . . . . . . . . . . . . . . . . . . 16
5.2. Reply . . . . . . . . . . . . . . . . . . . . . . . . . . 18
5.3. Reaction . . . . . . . . . . . . . . . . . . . . . . . . 19
5.4. Mentions . . . . . . . . . . . . . . . . . . . . . . . . 21
5.5. Edit . . . . . . . . . . . . . . . . . . . . . . . . . . 23
5.6. Delete . . . . . . . . . . . . . . . . . . . . . . . . . 25
5.7. Unlike . . . . . . . . . . . . . . . . . . . . . . . . . 27
5.8. Expiring . . . . . . . . . . . . . . . . . . . . . . . . 29
5.9. Attachments . . . . . . . . . . . . . . . . . . . . . . . 31
5.10. Conferencing . . . . . . . . . . . . . . . . . . . . . . 34
5.11. Topics / Threading . . . . . . . . . . . . . . . . . . . 36
5.12. Delivery Reporting and Read Receipts . . . . . . . . . . 36
5.12.1. Delivery Report Example . . . . . . . . . . . . . . 37
6. Support for Specific Media Types . . . . . . . . . . . . . . 39
6.1. MIMI Required and Recommended media types . . . . . . . . 39
6.1.1. Specifics of Github Flavored Markdown in MIMI . . . . 39
6.2. Use of proprietary media types . . . . . . . . . . . . . 40
7. IANA Considerations . . . . . . . . . . . . . . . . . . . . . 40
7.1. MIME subtype registration of application/mimi-content . . 40
7.2. MIME subtype registration of application/
mimi-message-status . . . . . . . . . . . . . . . . . . . 41
7.3. MIMI Content Extension Keys registry . . . . . . . . . . 42
7.3.1. Expert Review . . . . . . . . . . . . . . . . . . . . 44
7.4. GFM-MIMI Markdown variant . . . . . . . . . . . . . . . . 44
8. Security Considerations . . . . . . . . . . . . . . . . . . . 45
8.1. General handling . . . . . . . . . . . . . . . . . . . . 45
8.2. Generating the random salt . . . . . . . . . . . . . . . 46
8.3. Rendering and authorization of edits and deletes . . . . 46
8.4. Validation of timestamp . . . . . . . . . . . . . . . . . 47
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8.5. Alternate content rendering . . . . . . . . . . . . . . . 47
8.6. Link and Mention handling . . . . . . . . . . . . . . . . 48
8.7. Delivery and Read Receipts . . . . . . . . . . . . . . . 49
9. References . . . . . . . . . . . . . . . . . . . . . . . . . 49
9.1. Normative References . . . . . . . . . . . . . . . . . . 49
9.2. Informative References . . . . . . . . . . . . . . . . . 51
Appendix A. CDDL Schemas . . . . . . . . . . . . . . . . . . . . 53
A.1. Complete Message Format Schema . . . . . . . . . . . . . 53
A.2. Implied Message Fields . . . . . . . . . . . . . . . . . 54
A.3. Delivery Report Format . . . . . . . . . . . . . . . . . 55
Appendix B. Multipart examples . . . . . . . . . . . . . . . . . 55
B.1. Proprietary and Common formats sent as alternatives . . . 56
B.2. Mulitple Reactions Example . . . . . . . . . . . . . . . 57
B.3. Complicated Nested Example . . . . . . . . . . . . . . . 58
Appendix C. Changelog . . . . . . . . . . . . . . . . . . . . . 61
C.1. Changes between draft-mahy-mimi-content-01 and
draft-mahy-mimi-content-02 . . . . . . . . . . . . . . . 61
C.2. Changes between draft-mahy-mimi-content-02 and
draft-ietf-mimi-content-00 . . . . . . . . . . . . . . . 61
C.3. Changes between draft-ietf-mimi-content-00 and
draft-ietf-mimi-content-01 . . . . . . . . . . . . . . . 62
C.4. Changes between draft-ietf-mimi-content-01 and
draft-ietf-mimi-content-02 . . . . . . . . . . . . . . . 62
C.5. Changes between draft-ietf-mimi-content-02 and
draft-ietf-mimi-content-03 . . . . . . . . . . . . . . . 62
C.6. Changes between draft-ietf-mimi-content-03 and
draft-ietf-mimi-content-04 . . . . . . . . . . . . . . . 62
C.7. Changes between draft-mahy-mimi-content-04 and
draft-mahy-mimi-content-05 . . . . . . . . . . . . . . . 62
Author's Address . . . . . . . . . . . . . . . . . . . . . . . . 63
1. Terminology
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
"SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and
"OPTIONAL" in this document are to be interpreted as described in BCP
14 [RFC2119] [RFC8174] when, and only when, they appear in all
capitals, as shown here.
The terms MLS client, MLS group, and KeyPackage have the same
meanings as in the MLS protocol [RFC9420]. Other relevant
terminology cab be found in [I-D.ietf-mimi-arch].
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2. Introduction
RFC EDITOR: PLEASE REMOVE THE FOLLOWING PARAGRAPH. The source for
this draft is maintained in GitHub. Suggested changes should be
submitted as pull requests at https://github.com/ietf-wg-mimi/draft-
ietf-mimi-content (https://github.com/ietf-wg-mimi/draft-ietf-mimi-
content). Editorial changes can be managed in GitHub, but any
substantive change should be discussed on the MIMI mailing list
(mimi@ietf.org).
MLS [RFC9420] is a group key establishment protocol motivated by the
desire for group chat with efficient end-to-end encryption. While
one of the motivations of MLS is interoperable standards-based secure
messaging, the MLS protocol does not define or prescribe any format
for the encrypted "application messages" encoded by MLS. The
development of MLS was strongly motivated by the needs of a number of
Instant Messaging (IM) systems, which encrypt messages end-to-end
using variations of the Double Ratchet protocol [DoubleRatchet].
End-to-end encrypted instant messaging was also a motivator for the
Common Protocol for Instant Messaging (CPIM) [RFC3862], however the
model used at the time assumed standalone encryption of each message
using a protocol such as S/MIME [RFC8551] or PGP [RFC3156] to
interoperate between IM protocols such as SIP [RFC3261] and XMPP
[RFC6120]. For a variety of practical reasons, interoperable end-to-
end encryption between IM systems was never deployed commercially.
There are now several instant messaging vendors implementing MLS, and
the MIMI (More Instant Messaging Interoperability) Working Group is
chartered to standardize an extensible interoperable messaging format
for common features to be conveyed "inside" MLS application messages.
This document assumes that MLS clients advertise media types they
support and can determine what media types are required to join a
specific MLS group using the content advertisement extensions in
Section 2.3 of [I-D.ietf-mls-extensions]. It allows implementations
to define MLS groups with different media type requirements and
allows MLS clients to send extended or proprietary messages that
would be interpreted by some members of the group while assuring that
an interoperable end-to-end encrypted baseline is available to all
members, even when the group spans multiple systems or vendors.
Below is a list of some features commonly found in IM group chat
systems:
* plain text and rich text messaging
* mentions
* replies
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* reactions
* edit or delete previously sent messages
* expiring messages
* delivery notifications
* read receipts
* shared files/audio/videos
* calling / conferencing
* message threading
3. Overview
3.1. Binary encoding
The MIMI Content format is encoded in Concise Binary Object
Representation (CBOR) [RFC8949]. The Working Group chose a binary
format in part because:
* we do not want to scan body parts to check for boundary marker
collisions. This rules out using multipart MIME types.
* we do not want to base64 encode body parts with binary media types
(ex: images). This rules out using JSON to carry the binary data.
All examples start with an instance document annotated in the CBOR
Extended Diagnostic Notation (described in [Appendix G of @!RFC8610]
and more rigorously specified in [I-D.ietf-cbor-edn-literals]), and
then include a hex dump of the CBOR data in the pretty printed format
popularized by the CBOR playground website (https://cbor.me
(https://cbor.me)) with some minor whitespace and comment
reformatting. Finally a message ID for the message is included for
most messages.
All the instance documents validate using the CDDL schemas in
Appendix B and are included in the examples directory in the github
repo for this document.
3.2. Naming schemes
IM systems have a number of types of identifiers. These are
described in detail in [I-D.mahy-mimi-identity]. A few of these used
in this document are:
* handle identifier (external, friendly representation). This is
the type of identifier described later as the senderUserUrl in the
examples, which is analogous to the From header in email.
* client/device identifier (internal representation). This is the
type of identifier described as the senderClientUrl in the
examples.
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* group or room or conversation or channel name (either internal or
external representation). This is the type of identifier
described as the MLS group URL in the examples.
This proposal relies on URIs for naming and identifiers. All the
example use the im: URI scheme (defined in [RFC3862]), but any
instant messaging scheme could be used.
3.3. Message ID
The MIMI content format relies heavily of message IDs to refer to
other messages, to reply, react, edit, delete, and report on the
status of messages. Every MIMI content message contains a 32-octet
per-message cryptographically random salt, and has a 32-octet message
ID which is calculated from the hash of the message (including the
salt).
Calculation of the message ID works as follows. The first octet of
the MessageID is the hash function ID from the IANA hash algorithm
registry (https://www.iana.org/assignments/named-information/named-
information.xhtml#hash-alg). The sender URI, room URI, and the
entire MIMI message content (which includes the salt) are
concatenated and then hashed with the algorithm identified in the
first octet. The first 31 octets of the hash_output is appended to
the hash function ID.
hash_output = hash( senderUri || roomUri || message )
messageId = hashAlg || hash_output[0..30]
The MIMI content format uses the SHA-256 hash algorithm (identifier
0x01) by default, regardless of the hash algorithm of the cipher
suite of a room's MLS group. The initial octet allows the MIMI
protocol to deprecate SHA-256 and specify a new default algorithm in
the future (for example if a practical birthday attack on SHA_256
becomes feasible).
3.4. Accepted Timestamp
As described in the the MIMI architecture [I-D.ietf-mimi-arch], one
provider, called the hub, is responsible for ordering messages. The
hub is also responsible for recording the time that any application
message is accepted, and conveying it to any "follower" providers
which receive messages from the group. It is represented as the
whole number of milliseconds since the start of the UNIX epoch
(01-Jan-1970 00:00:00 UTC). The accepted timestamp MUST be available
to each receiving MIMI client. The client can use it for fine grain
sorting of messages into a consistent order.
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3.5. Message Container
Most common instant messaging features are expressed as individual
messages. A plain or rich text message is obviously a message, but a
reaction (ex: like), a reply, editing a previous message, deleting an
earlier message, and read receipts are all typically modeled as
another message with different properties.
This document describes the semantics of a message container, which
can represent most of these previously mentioned message types. The
container typically carries one or more body parts with the actual
message content (for example, an emoji used in a reaction, a plain
text or rich text message or reply, a link, or an inline image).
3.6. Message Status Report
This document also describes the semantics of a status report of
other messages. Because some messaging systems deliver messages in
batches and allow a user to mark several messages read at a time, the
report format allows a single report to convey the read/delivered
status of multiple messages (by message ID) within the same MLS group
at a time.
4. MIMI Content Container Message Semantics
Each MIMI Content message is a container format with two categories
of information:
* the message behavior fields (which can have default or empty
values), and
* the body part(s) and associated parameters
The object fields in the structure defined below are numbered in
curly braces for reference in the text.
The subsections that follow contain snippets of Concise Data
Definition Language (CDDL) [RFC8610] schemas for the MIMI Content
Container. The complete collected CDDL schema for MIMI Content
Container is available in Appendix A.1.
4.1. Message Behavior Fields
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mimiContent = [
salt: bstr .size 32,
replaces: null / MessageId, ; {1}
topicId: bstr, ; {2}
expires: uint .size 4, ; {3}
inReplyTo: null / InReplyTo, ; {4}
lastSeen: [* MessageId], ; {5}
extensions: {* name => value }, ; {6}
nestedPart: NestedPart ; {7}
]
MessageId = bstr .size 32
The first data field is the per-message unique salt which MUST be
cryptographically random. An example algorithm for generating the
salt is described in Section 8.2.
The replaces {1} data field indicates that the current message is a
replacement or update to a previous message whose message ID is in
the replaces data field. It is used to edit previously-sent
messages, delete previously-sent messages, and adjust reactions to
messages to which the client previously reacted. If the replaces
field is absent, the receiver assumes that the current message has
not identified any special relationship with another previous
message.
The topicId {2} data field indicates that the current message is part
of a logical grouping of messages which all share the same value in
the topicId data field. If the topicId is zero length, there is no
such grouping.
The expires {3} data field is a hint from the sender to the receiver
that the message should be locally deleted and disregarded at either
a specific timestamp in the future, or a relative amount of time
after the receiving client reads the message. Indicate a message
with no specific expiration time with the value null. If non-null,
the data field is an array of two items.
Expiration = [
relative: bool,
time: uint .size 4
]
The first is a boolean indicating if the time is relative (true) or
absolute (false). The second is an unsigned integer. If relative,
it is the whole number of seconds the message should be visible
before it is deleted. If absolute, it is the number of seconds after
the start of the UNIX epoch, at which point the message should be
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deleted. Using an 32-bit unsigned integer allows expiration dates
until the year 2106. Note that specifying an expiration time
provides no assurance that the client actually honors or can honor
the expiration time, nor that the end user didn't otherwise save the
expiring message (ex: via a screenshot).
The inReplyTo {4} data field indicates that the current message is a
related continuation of another message sent in the same MLS group.
If present, it contains the message ID of the referenced message.
Otherwise, the receiver assumes that the current message has not
identified any special reply relationship with another previous
message. The message id of the referenced message is also used to
make sure that a MIMI message cannot refer to a sequence of referred
messages which refers back to itself. When replying, a client MUST
NOT knowingly create a sequence of replies which create a loop.
When receiving a message with inReplyTo message, the client checks if
the referenced message is itself inReplyTo another message. If so,
it continues following the referenced messages, checking that the
message ID of none of the referenced messages "loop" back to a
message later in the inReplyTo chain.
Note that a inReplyTo always references a specific message ID. Even
if the original message was edited several times, a reply always
refers to a specific version of that message, and SHOULD refer to the
most current version at the time the reply is sent.
4.2. Message Ordering
The lastSeen {5} data field indicates the latest message the sender
was aware of in the group. It is a list of message ids.
If the sender recently joined the group and has not yet seen any
messages, the list is empty.
If the sender identifies a single message as unambiguously the latest
message in the group, the lastSeen list contains a single message id
from that message.
Imagine however that two users (Bob and Cathy) see a message from
Alice offering free Hawaiian pizza, and reply at the same time. Bob
and Cathy both send messages with their lastSeen including a single
message id (Alice's) message about pizza. Their messages don't need
to be replies or reactions. Bob might just send a message saying he
doesn't like pineapple on pizza. Now Doug receives all these
messages and replies as well. Doug's message contains a lastSeen
including the message id list of both Bob's and Cathy's replies,
effectively "merging" the order of messages.
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The next message after Doug's message contains a lastSeen containing
only the message id of Doug's message.
4.3. Extension Fields
In order to add additional functionality to MIMI, senders can include
extension fields in the message format {6}. Each extension has a CBOR
map key which is a positive integer, negative integer, or text string
containing between 1 and 255 octets of UTF-8. The value can be any
CBOR (including combinations of maps and arrays) which can be
represented in between 0 and 4096 octets. The message content
extensions field MUST NOT include more than one extension field with
the same map key.
name = int / tstr .size (1..255)
value = any .size (0..4095)
An IANA registry Section 7.3 is defined for positive integer keys.
Negative integer and text string keys are only for private use.
4.4. Message Bodies
Every MIMI content message has a body {7} which can have multiple,
possibly nested parts. A body with zero parts is permitted when
deleting or unliking. External body parts Section 4.5 are also
supported. When there is a single (inline) part or a (single)
externally reference part, its IANA media type, subtype, and
parameters are included in the contentType field {8}.
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NestedPart = [
disposition: baseDispos / $extDispos / unknownDispos, ; {10}
language: tstr, ; {11}
( NullPart // SinglePart // ExternalPart // MultiPart)
]
NullPart = ( cardinality: nullpart )
SinglePart = (
cardinality: single,
contentType: tstr, ; {8}
content: bstr
)
ExternalPart = (
cardinality: external,
contentType: tstr,
url: uri,
expires: uint .size 4,
size: uint .size 8,
encAlg: uint .size 2,
key: bstr,
nonce: bstr,
aad: bstr,
hashAlg: uint .size 1,
contentHash: bstr,
description: tstr,
filename: tstr
)
MultiPart = (
cardinality: multi,
partSemantics: chooseOne / singleUnit / processAll,
parts: [2* NestedPart]
)
; cardinality
nullpart = 0
single = 1
external = 2
multi = 3
; part semantics {9}
chooseOne = 0 ; receiver picks exactly one part to process
singleUnit = 1 ; receiver processes all parts as single unit
processAll = 2 ; receiver processes all parts individually
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With some types of message content, there are multiple media types
associated with the same message which need to be rendered together,
for example a rich-text message with an inline image. With other
messages, there are multiple choices available for the same content,
for example a choice among multiple languages, or between two
different image formats. The relationship semantics among the parts
is specified as an enumeration {9}.
The chooseOne part semantic is roughly analogous to the semantics of
the multipart/alternative media type, except that the ordering of the
nested body parts is merely a preference of the sender. The receiver
can choose the body part among those provided according to its own
policy.
The singleUnit part semantic is roughly analogous to the semantics of
the multipart/related media type, in that all the nested body parts
at this level are part of a single entity (for example, a rich text
message with an inline image). If the receiver does not understand
even one of the nested parts at this level, the receiver should not
process any of them.
The processAll part semantic is roughly analogous to the semantics of
the multipart/mixed media type. The receiver should process as many
of the nested parts at this level as possible. For example, a rich
text document with a link, and a preview image of the link target
could be expressed using this semantic. Processing the preview image
is not strictly necessary for the correct rendering of the rich text
part.
The disposition {10} and language {11} of each part can be specified
for any part, including for nested parts. The disposition represents
the intended semantics of the body part or a set of nested parts. It
is inspired by the values in the Content-Disposition MIME header
[RFC2183].
baseDispos = &(
unspecified: 0,
render: 1,
reaction: 2,
profile: 3,
inline: 4,
icon: 5,
attachment: 6,
session: 7,
preview: 8
)
unknownDispos = &( unknown: 9..255 ) ; Note: any ext_dispos take precedence
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The render disposition means that the content should be rendered
according to local policy. The inline dispositions means that the
content should be rendered "inline" directly in the chat interface.
The attachment disposition means that the content is intended to be
downloaded by the receiver instead of being rendered immediately.
The reaction disposition means that the content is a single reaction
to another message, typically an emoji, but which could be an image,
sound, or video. The reaction disposition was originally published
in [RFC9078], but was incorrectly placed in the Content Disposition
Parameters IANA registry instead of in the Content Disposition Values
registry. The session disposition means that the content is a
description of a multimedia session, or a URI used to join one. The
preview disposition means that the content is a sender-generated
preview of something, such as the contents of a link.
The value of the language data field is an empty string or a comma-
separated list of one or more Language-tags as defined in [RFC5646].
Each part also has an implied part index, which is a zero-indexed,
depth-first integer. It is used to efficiently refer to a specific
body part (for example, an inline image) within another part. See
Appendix B.3 for an example of how the part index is calculated.
The partIndex can be used inside a content ID URI [RFC2392] in a
"container" part (for example HTML, Markdown, vCard [RFC6350], or
iCal [RFC5545]) to reference another part inside the same MIMI
message. In a MIMI message it has the form
cid:_partIndex_@local.invalid .
4.5. External content
It is common in Instant Messaging systems to reference external
content via URI that will be processed automatically, either to store
bulky content (ex: videos, images, recorded sounds) outside the
messaging infrastructure, or to access a specific service URI, for
example, a media forwarding service for conferencing.
An ExternalPart is a convenient way to reference this content. It
provides a similar function to the message/external-body media type.
It optionally includes the size of the data in octets (or zero if the
length is not provided). It also includes an optional timestamp
after which the external content is invalid, expressed as seconds
since the start of the UNIX epoch (01-Jan-1970), or zero if the
content does not expire.
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ExternalPart = (
cardinality: external,
contentType: tstr, ; An IANA media type {8}
url: uri, ; A URL where the content can be fetched
expires: uint .size 4, ; expiration in seconds since UNIX epoch
size: uint .size 8, ; size of content in octets
encAlg: uint .size 2, ; An IANA AEAD Algorithm number, or zero
key: bstr, ; AEAD key
nonce: bstr, ; AEAD nonce
aad: bstr, ; AEAD additional authentiation data
hashAlg: uint .size 1, ; An IANA Named Information Hash Algorithm
contentHash: bstr, ; hash of the content at the target url
description: tstr, ; an optional text description
filename: tstr ; an optional suggested filename
)
Typically, external content is encrypted with an ephemeral symmetric
key before it is uploaded, and whatever is necessary for decryption
is shared over the message channel.
It is a matter of local policy to where the content is uploaded.
Often in federated messaging systems, the sender of the content
stores the external content in their own domain, but in some systems
the content is stored in the "owning" or "hub" domain of the MLS
group.
Before being uploaded, private external content is encrypted with an
IANA-registered Authenticated Encryption with Additional Data (AEAD)
algorithm as described in [RFC5116]. The key, nonce, and additional
authenticated data (aad) values are set to the values used during the
encryption. Unless modified by an extension, the default value of
the aad is empty.
If the external URL is a service, or the external content is not
considered private, the encAlg is set to zero, and the key, nonce,
and aad fields are zero length.
Implementations of this specification MUST implement the AES-128-GCM
algorithm.
4.6. Derived Data Values
In addition to fields which are contained in a MIMI content message,
there are also two fields which the implementation can definitely
derive (the MLS group ID {12}, and the leaf index of the sender
{13}). Many implementations could also determine one or more of: the
sender's client identifier URL {14}, the user identifier URL of the
credential associated with the sender {15}, and the identifier URL
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for the MIMI room {16}.
MessageDerivedValues = [
messageId: MessageId, ; sha256 hash of message ciphertext
hubAcceptedTimestamp: Timestamp,
mlsGroupId: bstr, ; value always available {12}
senderLeafIndex: uint .size 4, ; value always available {13}
senderClientUrl: uri ; {14},
senderUserUrl: uri, ; "From" {15}
roomUrl: uri ; "To" {16}
]
MessageId = bstr .size 32
Timestamp = #6.62(uint .size 8) ; milliseconds since start of UNIX epoch
5. Examples
In the following examples, we assume that an MLS group is already
established and that either out-of-band or using the MLS protocol or
MLS extensions, or their client to provider protocol that the
following is known to every member of the group:
* The membership of the group (via MLS).
* The identity of any MLS client which sends an application message
(via MLS).
* The MLS group ID (via MLS)
* The human readable name(s) of the MIMI room, if any (out-of-band
or extension).
* Which media types are mandatory to implement (MLS content
advertisement extensions).
* For each member, the media types each supports (MLS content
advertisement extensions).
Messages sent to an MLS group are delivered to every member of the
group active during the epoch in which the message was sent.
All the examples start with a CBOR instance document annotated in the
Extended Diagnostic Format (described in [Appendix G of @!RFC8610]
and more rigorously specified in [I-D.ietf-cbor-edn-literals]), and
then include a hex dump of the CBOR data in the pretty printed format
popularized by the CBOR playground website (https://cbor.me
(https://cbor.me)) with some minor whitespace and comment
reformatting. Finally a message ID for the message is included for
most messages.
All the instance documents validate using the CDDL schemas in
Appendix B and are included in the examples directory in the github
repo for this document.
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5.1. Original Message
In this example, Alice Smith sends a rich-text (Markdown) [RFC7763]
message to the Engineering Team MLS group. The following values are
derived from the client, except for the hub received timestamp, which
might be available for the client from its provider:
* Sender leaf index: 4
* Sender client ID URL: im:3b52249d-68f9-45ce-
8bf5-c799f3cad7ec/0003@example.com
* Sender user handle URL: im:%40alice-smith@example.com
* MLS group ID: 7u4NEqe1tbeBFa0aHdsTgRyD/XOHxD5meZpZS+7aJr8=
* The MIMI room URL: im:#engineering_team@example.com
* The MIMI room name: "Engineering Team"
* Message ID: 0xd3c14744d1791d02548232c23d35efa9
7668174ba385af066011e43bd7e51501
* Timestamp: 1644387225019 = 2022-02-08T22:13:45.019-00:00
Below is the message in annotated Extended Diagnostic Notation, and
pretty printed CBOR.
[
null, / replaces /
h'', / topicId /
null, / expires /
null, / inReplyTo /
[], / lastSeen /
{}, / extensions /
[ / body (NestedPart) /
1, / dispostion = render /
"", / language /
1, / cardinality = single part /
"text/markdown;variant=GFM", / contentType /
/ content /
'Hi everyone, we just shipped release 2.0. __Good work__!'
]
]
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88 # array(8)
58 20 # bytes(20)
d3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501
f6 # primitive(22)
40 # bytes(0)
# ""
f6 # primitive(22)
f6 # primitive(22)
80 # array(0)
a0 # map(0)
86 # array(6)
01 # unsigned(1)
60 # text(0)
# ""
00 # unsigned(0)
01 # unsigned(1)
78 1b # text(27)
746578742f6d61726b646f776e3b636861727365743d7574662d38
# "text/markdown;charset=utf-8"
58 38 # bytes(56)
48692065766572796f6e652c207765206a757374207368697070656420
72656c6561736520322e302e205f5f476f6f6420776f726b5f5f21
# "Hi everyone, we just shipped release 2.0. __Good work__!"
Below are the rest of the implied values for this message:
[
/ messageId (Original message) /
h'd3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501',
/ hubAcceptedTimestamp = 2022-02-08T22:13:45.019-00:00 /
62(1644387225019),
/ mlsGroupId /
h'eeee0d12a7b5b5b78115ad1a1ddb13811c83fd7387c43e66799a594beeda26bf',
/ senderLeafIndex /
4,
/ senderClientUrl /
"mimi://example.com/d/3b52249d-68f9-45ce-8bf5-c799f3cad7ec/0003",
/ senderUserUrl /
"mimi://example.com/u/alice-smith",
/ roomUrl /
"mimi://example.com/r/engineering_team"
]
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5.2. Reply
A reply message looks similar, but contains the message ID of the
original message in the inReplyTo data field. The derived MLS group
ID, URL, and name do not change in this example. The derived
senderClientId and senderLeafIndex are not especially relevant so all
but the user handle URL, message ID, and hub received timestamp will
be omitted.
* Sender user handle URL: im:%40bob-jones@example.com
* MessageId: 0xe701beee59f9376282f39092e1041b2a
c2e3aad1776570c1a28de244979c71ed
* Timestamp = 1644387237492 = 2022-02-08T22:13:57.492-00:00
Below is the annotated message in EDN and pretty printed CBOR:
[
null, / replaces /
h'', / topicId /
null, / expires = never /
[ / InReplyTo /
/ message = Original message /
h'd3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501',
1, / hashAlg = sha256 /
/ hash /
h'6b44053cb68e3f0cdd219da8d7104afc2ae5ffff782154524cef093de39345a5'
],
[ / lastSeen (1 item) /
/ Original message /
h'd3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501'
],
{}, / extensions /
[ / body (NestedPart) /
1, / dispostion = render /
"", / language /
1, / cardinality = single /
"text/markdown;variant=GFM", / contentType /
/ content /
'Right on! _Congratulations_ \'all!'
]
]
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87 # array(7)
f6 # primitive(22)
40 # bytes(0)
# ""
f6 # primitive(22)
83 # array(3)
58 20 # bytes(32)
d3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501
01 # unsigned(1)
58 20 # bytes(32)
6b44053cb68e3f0cdd219da8d7104afc2ae5ffff782154524cef093de39345a5
81 # array(1)
58 20 # bytes(32)
d3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501
a0 # map(0)
86 # array(6)
01 # unsigned(1)
60 # text(0)
# ""
00 # unsigned(0)
01 # unsigned(1)
78 1b # text(27)
746578742f6d61726b646f776e3b636861727365743d7574662d38
# "text/markdown;charset=utf-8"
58 21 # bytes(33)
5269676874206f6e21205f436f6e67726174756c6174696f6e735f2027616c6c21
# "Right on! _Congratulations_ 'all!"
5.3. Reaction
A reaction looks like a reply, but uses the Disposition token of
reaction. It is modeled on the reaction Content-Disposition token
defined in [RFC9078]. Both indicate that the intended disposition of
the contents of the message is a reaction.
The content in the sample message is a single Unicode heart character
(U+2665) which is expressed in UTF-8 as 0xe299a5. Discovering the
range of characters each implementation could render as a reaction
can occur out-of-band and is not within the scope of this proposal.
However, an implementation which receives a reaction character string
it does not recognize could render the reaction as a reply, possibly
prefixing with a localized string such as "Reaction: ". Note that a
reaction could theoretically even be another media type (ex: image,
audio, or video), although not currently implemented in major instant
messaging systems. Note that many systems allow mutiple independent
reactions per sender.
* Sender user handle URL: im:cathy-washington@example.com
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* Message ID: 0x4dcab7711a77ea1dd025a6a1a7fe01ab
3b0d690f82417663cb752dfcc37779a1
* Timestamp: 1644387237728 = 2022-02-08T22:13:57.728-00:00
Below is the annotated message in EDN and pretty printed CBOR:
[
null, / replaces /
h'', / topicId /
null, / expires = never /
[ / InReplyTo /
/ message = Original message /
h'd3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501',
1, / hashAlg = sha256 /
/ hash /
h'6b44053cb68e3f0cdd219da8d7104afc2ae5ffff782154524cef093de39345a5'
],
[ / lastSeen (1 item) /
/ Reply message /
h'e701beee59f9376282f39092e1041b2ac2e3aad1776570c1a28de244979c71ed'
],
{}, / extensions /
[ / body (NestedPart) /
2, / dispostion = reaction /
"", / language /
1, / cardinality = single /
"text/plain;charset=utf-8", / contentType /
'❤' / content = U+2665 (heart) /
]
]
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87 # array(7)
f6 # primitive(22)
40 # bytes(0)
# ""
f6 # primitive(22)
83 # array(3)
58 20 # bytes(32)
d3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501
01 # unsigned(1)
58 20 # bytes(32)
6b44053cb68e3f0cdd219da8d7104afc2ae5ffff782154524cef093de39345a5
81 # array(1)
58 20 # bytes(32)
e701beee59f9376282f39092e1041b2ac2e3aad1776570c1a28de244979c71ed
a0 # map(0)
86 # array(6)
02 # unsigned(2)
60 # text(0)
# ""
00 # unsigned(0)
01 # unsigned(1)
78 18 # text(24)
746578742f706c61696e3b636861727365743d7574662d38
# "text/plain;charset=utf-8"
43 # bytes(3)
e299a5 # "♥"
5.4. Mentions
In instant messaging systems and social media, a mention allows
special formatting and behavior when a name, handle, or tag
associated with a known group is encountered, often when prefixed
with a commercial-at "@" character for mentions of users or a hash
"#" character for groups or tags. A message which contains a mention
may trigger distinct notifications on the IM client.
We can convey a mention by linking the user handle URI, or group URI
in Markdown or HTML rich content. For example, a mention using
Markdown is indicated below.
* Sender user handle URL: im:cathy-washington@example.com
* Message ID: 0x6b50bfdd71edc83554ae21380080f4a3
ba77985da34528a515fac3c38e4998b8
* Timestamp: 1644387243008 = 2022-02-08T22:14:03.008-00:00
Below is the annotated message in EDN and pretty printed CBOR:
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[
null, / replaces /
h'', / topicId /
null, / expires = never /
null, / InReplyTo /
[ / lastSeen (1 item) /
/ Reply message /
h'e701beee59f9376282f39092e1041b2ac2e3aad1776570c1a28de244979c71ed'
],
{}, / extensions /
[ / body (NestedPart) /
1, / dispostion = render /
"", / language /
1, / cardinality = single /
"text/markdown;variant=GFM", / contentType /
/ content /
'Kudos to [@Alice Smith](im:alice-smith@example.com)'
' for making the release happen!'
]
]
87 # array(7)
f6 # primitive(22)
40 # bytes(0)
# ""
f6 # primitive(22)
f6 # primitive(22)
81 # array(1)
58 20 # bytes(32)
e701beee59f9376282f39092e1041b2ac2e3aad1776570c1a28de244979c71ed
a0 # map(0)
86 # array(6)
01 # unsigned(1)
60 # text(0)
# ""
00 # unsigned(0)
01 # unsigned(1)
78 1b # text(27)
746578742f6d61726b646f776e3b636861727365743d7574662d38
# "text/markdown;charset=utf-8"
58 52 # bytes(82)
4b75646f7320746f205b40416c69636520536d6974685d28696d3a
616c6963652d736d697468406578616d706c652e636f6d2920666f
72206d616b696e67207468652072656c656173652068617070656e21
# "Kudos to [@Alice Smith](im:alice-smith@example.com)
# for making the release happen!"
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The same mention using HTML [W3C.CR-html52-20170808] would instead
replace in the EDN the contentType and content indicated below.
/ ... /
"text/html;charset=utf-8",
'Kudos to @Alice Smith for making the release happen!
'
5.5. Edit
Unlike with email messages, it is common in IM systems to allow the
sender of a message to edit or delete the message after the fact.
Typically the message is replaced in the user interface of the
receivers (even after the original message is read) but shows a
visual indication that it has been edited.
The replaces data field includes the message ID of the message to
edit/replace. The message included in the body is a replacement for
the message with the replaced message ID.
Here Bob Jones corrects a typo in his original message:
* Sender user handle URL: im:%40bob-jones@example.com
* Message ID:0x89d3472622a4d9de526742bcd00b09dc
78fa4edceaf2720e17b730c6dfba8be4
* Timestamp: 1644387248621 = 2022-02-08T22:14:08.621-00:00
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[
/ replaces = Reply message /
h'e701beee59f9376282f39092e1041b2ac2e3aad1776570c1a28de244979c71ed',
h'', / topicId /
null, / expires = never /
[ / InReplyTo /
/ message = Original message /
h'd3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501',
1, / hashAlg = sha256 /
/ hash /
h'6b44053cb68e3f0cdd219da8d7104afc2ae5ffff782154524cef093de39345a5'
],
[ / lastSeen (2 items) /
/ Reaction message /
h'4dcab7711a77ea1dd025a6a1a7fe01ab
3b0d690f82417663cb752dfcc37779a1',
/ Mention message /
h'6b50bfdd71edc83554ae21380080f4a3
ba77985da34528a515fac3c38e4998b8'
],
{}, / extensions /
[ / body (NestedPart) /
1, / dispostion = render /
"", / language /
1, / cardinality = single /
"text/markdown;variant=GFM", / contentType /
/ content /
'Right on! _Congratulations_ y\'all'
]
]
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87 # array(7)
58 20 # bytes(32)
e701beee59f9376282f39092e1041b2ac2e3aad1776570c1a28de244979c71ed
40 # bytes(0)
# ""
f6 # primitive(22)
83 # array(3)
58 20 # bytes(32)
d3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501
01 # unsigned(1)
58 20 # bytes(32)
6b44053cb68e3f0cdd219da8d7104afc2ae5ffff782154524cef093de39345a5
82 # array(2)
58 20 # bytes(32)
4dcab7711a77ea1dd025a6a1a7fe01ab3b0d690f82417663cb752dfcc37779a1
58 20 # bytes(32)
6b50bfdd71edc83554ae21380080f4a3ba77985da34528a515fac3c38e4998b8
a0 # map(0)
86 # array(6)
01 # unsigned(1)
60 # text(0)
# ""
00 # unsigned(0)
01 # unsigned(1)
78 1b # text(27)
746578742f6d61726b646f776e3b636861727365743d7574662d38
# "text/markdown;charset=utf-8"
58 22 # bytes(34)
5269676874206f6e21205f436f6e67726174756c6174696f6e735f
207927616c6c21
# "Right on! _Congratulations_ y'all!"
Note that replies and reactions always refer to a specific message
id, and therefore a specific "version" of a message, which could have
been edited before and/or after the message id referenced in the
reply or reaction. It is a matter of local policy how to render (if
at all) a reaction to a subsequently edited message.
5.6. Delete
In IM systems, a delete means that the author of a specific message
has retracted the message, regardless if other users have read the
message or not. Typically a placeholder remains in the user
interface showing that a message was deleted. Replies which
reference a deleted message typically hide the quoted portion and
reflect that the original message was deleted.
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If Bob deleted his message instead of modifying it, we would
represent it using the replaces data field, and using an empty body
(NullPart), as shown below.
* Sender user handle URL: im:%40bob-jones@example.com
* Message ID: 0x89d3472622a40d6ceeb27c42490fdc64
c0e9c20c598f9d7c8e81640dae8db0fb
* Timestamp: 1644387248621 = 2022-02-08T22:14:08.621-00:00
[
/ replaces = Reply message /
h'e701beee59f9376282f39092e1041b2ac2e3aad1776570c1a28de244979c71ed',
h'', / topicId /
null, / expires = never /
[ / InReplyTo /
/ message = Original message /
h'd3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501',
1, / hashAlg = sha256 /
/ hash /
h'6b44053cb68e3f0cdd219da8d7104afc2ae5ffff782154524cef093de39345a5'
],
[ / lastSeen (1 items) /
/ Edit message /
h'89d3472622a4d9de526742bcd00b09dc78fa4edceaf2720e17b730c6dfba8be4'
],
{}, / extensions /
[ / body (NestedPart) /
1, / dispostion = render /
"", / language /
0 / cardinality = zero parts /
]
]
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87 # array(7)
58 20 # bytes(32)
4dcab7711a77ea1dd025a6a1a7fe01ab3b0d690f82417663cb752dfcc37779a1
40 # bytes(0)
# ""
f6 # primitive(22)
83 # array(3)
58 20 # bytes(32)
d3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501
01 # unsigned(1)
58 20 # bytes(32)
6b44053cb68e3f0cdd219da8d7104afc2ae5ffff782154524cef093de39345a5
81 # array(1)
58 20 # bytes(32)
89d3472622a40d6ceeb27c42490fdc64c0e9c20c598f9d7c8e81640dae8db0fb
a0 # map(0)
84 # array(4)
02 # unsigned(2)
60 # text(0)
# ""
00 # unsigned(0)
00 # unsigned(0)
5.7. Unlike
In most IM systems, not only is it possible to react to a message
("Like"), but it is possible to remove a previous reaction
("Unlike"). This can be accomplished by deleting the message which
creates the original reaction
If Cathy removes her reaction, we would represent the removal using a
replaces data field with an empty body, referring to the message
which created the reaction, as shown below.
* Sender user handle URL: im:cathy-washington@example.com
* Message ID: 0x1a771ca1d84f8fda4184a1e02a549e20
1bf434c6bfcf1237fa45463c6861853b
* Timestamp: 1644387250389 = 2022-02-08T22:14:10.389-00:00
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[
/ replaces = Reaction message /
h'4dcab7711a77ea1dd025a6a1a7fe01ab3b0d690f82417663cb752dfcc37779a1',
h'', / topicId /
null, / expires = never /
[ / InReplyTo /
/ message = Original message /
h'd3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501',
1, / hashAlg = sha256 /
/ hash /
h'6b44053cb68e3f0cdd219da8d7104afc2ae5ffff782154524cef093de39345a5'
],
[ / lastSeen (1 items) /
/ Delete message /
h'89d3472622a40d6ceeb27c42490fdc64c0e9c20c598f9d7c8e81640dae8db0fb'
],
{}, / extensions /
[ / body (NestedPart) /
2, / dispostion = reaction /
"", / language /
0 / cardinality = zero parts /
]
]
87 # array(7)
58 20 # bytes(32)
e701beee59f9376282f39092e1041b2ac2e3aad1776570c1a28de244979c71ed
40 # bytes(0)
# ""
f6 # primitive(22)
83 # array(3)
58 20 # bytes(32)
d3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501
01 # unsigned(1)
58 20 # bytes(32)
6b44053cb68e3f0cdd219da8d7104afc2ae5ffff782154524cef093de39345a5
81 # array(1)
58 20 # bytes(32)
89d3472622a4d9de526742bcd00b09dc78fa4edceaf2720e17b730c6dfba8be4
a0 # map(0)
84 # array(4)
01 # unsigned(1)
60 # text(0)
# ""
00 # unsigned(0)
00 # unsigned(0)
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5.8. Expiring
There are two types of expiring messages in instant messaging
systems. In the typical implementation, messages are deleted a
specific amount of time relative to (after) when the receiving client
reads the message. We will refer to this as relative expiration.
Absolute expiring messages are designed to be deleted automatically
by the receiving client at a certain time whether they have been read
or not.
As with manually deleted messages, there is no guarantee that an
uncooperative client or a determined user will not save the content
of the message. The goal instead is to allow cooperating client that
respect the convention to signal expiration times clearly.
The expires data field contains the absolute timestamp when, or
relative amount of time after reading after which the message can be
deleted. The semantics of the header are that the message is
automatically deleted by the receiving clients at the indicated time
without user interaction or network connectivity necessary.
* Sender user handle URL: im:alice-smith@example.com
* Message ID: 0x5c95a4dfddab84348bcc265a479299fb
d3a2eecfa3d490985da5113e5480c7f1
* Timestamp: 1644389403227 = 2022-02-08T22:49:06.227-00:00
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[
null, / replaces /
h'', / topicId /
[ / Expiration /
false, / absolute, not relative /
1644390004, / expires = 10 minutes after it was sent /
]
null, / inReplyTo /
[ / lastSeen (1 item) /
/ Unlike message /
h'1a771ca1d84f8fda4184a1e02a549e201bf434c6bfcf1237fa45463c6861853b'
],
{}, / extensions /
[ / body (NestedPart) /
1, / dispostion = render /
"", / language /
1, / cardinality = single part /
"text/markdown;variant=GFM", / contentType /
/ content /
'__*VPN GOING DOWN*__ I\'m rebooting the VPN in ten minutes'
' unless anyone objects.'
]
]
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87 # array(7)
f6 # primitive(22)
40 # bytes(0)
# ""
82 # array(2)
f4 # primitive(20)
1a 62036674 # unsigned(1644390004)
f6 # primitive(22)
81 # array(1)
58 20 # bytes(32)
1a771ca1d84f8fda4184a1e02a549e201bf434c6bfcf1237fa45463c6861853b
a0 # map(0)
86 # array(6)
01 # unsigned(1)
60 # text(0)
# ""
00 # unsigned(0)
01 # unsigned(1)
78 1b # text(27)
746578742f6d61726b646f776e3b636861727365743d7574662d38
# "text/markdown;charset=utf-8"
58 50 # bytes(80)
5f5f2a56504e20474f494e4720444f574e2a5f5f0a49276d207265
626f6f74696e67207468652056504e20696e2074656e206d696e75
74657320756e6c65737320616e796f6e65206f626a656374732e
# "__*VPN GOING DOWN*__\nI'm rebooting the VPN in ten
# minutes unless anyone objects."
5.9. Attachments
An ExternalPart is a convenient way to present both "attachments" and
(possibly inline rendered) content which is too large to be included
in an MLS application message. The disposition data field is set to
inline if the sender recommends inline rendering, or attachment if
the sender intends the content to be downloaded or rendered
separately.
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[
null, / replaces /
h'', / topicId /
null, / expires = never /
null, / inReplyTo /
[ / lastSeen (1 item) /
/ Expiring message /
h'5c95a4dfddab84348bcc265a479299fbd3a2eecfa3d490985da5113e5480c7f1'
],
{}, / extensions /
[ / body (NestedPart) /
6, / dispostion = attachment /
"en", / language = en /
2, / cardinality = external part /
"video/mp4", / contentType /
"https://example.com/storage/8ksB4bSrrRE.mp4", / url /
0, / expires /
708234961, / size /
1, / encAlg = AES-128-GCM /
h'21399320958a6f4c745dde670d95e0d8', / key /
h'c86cf2c33f21527d1dd76f5b', / nonce /
h'', / aad /
1, / hashAlg = sha256 /
/ content hash /
h'9ab17a8cf0890baaae7ee016c7312fcc080ba46498389458ee44f0276e783163',
"2 hours of key signing video", / description /
"bigfile.mp4" / filename /
]
]
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87 # array(7)
f6 # primitive(22)
40 # bytes(0)
# ""
f6 # primitive(22)
f6 # primitive(22)
81 # array(1)
58 20 # bytes(32)
5c95a4dfddab84348bcc265a479299fbd3a2eecfa3d490985da5113e5480c7f1
a0 # map(0)
90 # array(16)
06 # unsigned(6)
62 # text(2)
656e # "en"
00 # unsigned(0)
02 # unsigned(2)
69 # text(9)
766964656f2f6d7034 # "video/mp4"
78 2b # text(43)
68747470733a2f2f6578616d706c652e636f6d2f73746f72616
7652f386b7342346253727252452e6d7034
# "https://example.com/storage/8ksB4bSrrRE.mp4"
00 # unsigned(0)
1a 2a36ced1 # unsigned(708234961)
01 # unsigned(1)
50 # bytes(16)
21399320958a6f4c745dde670d95e0d8
4c # bytes(12)
c86cf2c33f21527d1dd76f5b
40 # bytes(0)
# ""
01 # unsigned(1)
58 20 # bytes(32)
9ab17a8cf0890baaae7ee016c7312fcc080ba46498389458ee44f0276e783163
78 1c # text(28)
3220686f757273206f66206b6579207369676e696e6720766964656f
# "2 hours of key signing video"
6b # text(11)
62696766696c652e6d7034 # "bigfile.mp4"
message ID
0xb267614d43e7676d28ef5b15e8676f23
679fe365c78849d83e2ba0ae8196ec4e
Other dispositions of external content are also possible, for example
an external GIF animation of a rocket ship could be used with a
reaction disposition.
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5.10. Conferencing
Joining a conference via an external URL is possible. The link could
be rendered to the user, requiring a click. Alternatively the URL
could be rendered the disposition could be specified as session which
could be processed differently by the client (for example, alerting
the user or presenting a dialog box). Further discussion of calling
and conferencing functionality is out-of-scope of this document.
[
null, / replaces /
h'466f6f20313138', / topicId = Foo 118 /
null, / expires /
null, / inReplyTo /
[ / lastSeen (1 item) /
/ Attachment message /
h'b267614d43e7676d28ef5b15e8676f23679fe365c78849d83e2ba0ae8196ec4e'
],
{}, / extensions /
[ / body (NestedPart) /
7, / dispostion = session /
"", / language /
2, / cardinality = external part /
"", / contentType /
"https://example.com/join/12345", / url /
0, / expires /
0, / size /
0, / encAlg = none /
h'', / key /
h'', / nonce /
h'', / aad /
0, / hashAlg = none /
h'', / content hash /
"Join the Foo 118 conference", / description /
"" / filename /
]
]
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87 # array(7)
f6 # primitive(22)
47 # bytes(7)
466f6f20313138 # "Foo 118"
f6 # primitive(22)
f6 # primitive(22)
81 # array(1)
58 20 # bytes(32)
b267614d43e7676d28ef5b15e8676f23679fe365c78849d83e2ba0ae8196ec4e
a0 # map(0)
90 # array(16)
07 # unsigned(7)
60 # text(0)
# ""
00 # unsigned(0)
02 # unsigned(2)
60 # text(0)
# ""
78 1e # text(30)
68747470733a2f2f6578616d706c652e636f6d2f6a6f696e2f3132333435
# "https://example.com/join/12345"
00 # unsigned(0)
00 # unsigned(0)
00 # unsigned(0)
40 # bytes(0)
# ""
40 # bytes(0)
# ""
40 # bytes(0)
# ""
00 # unsigned(0)
40 # bytes(0)
# ""
78 1b # text(27)
4a6f696e2074686520466f6f2031313820636f6e666572656e6365
# "Join the Foo 118 conference"
60 # text(0)
# ""
message ID
0xb267614d43e7676d28ef5b15e8676f23
679fe365c78849d83e2ba0ae8196ec4e
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5.11. Topics / Threading
As popularized by the messaging application Slack, some messaging
applications have a notion of a Topic or message Thread (not to be
confused with message threading as used in email). Clients beginning
a new "topic" populate the topicId with a unique opaque octet string.
This could be the message ID of the first message sent related to the
topic. Subsequent messages may include the same topicId for those
messages to be associated with the same topic. The sort order for
messages within a thread uses the timestamp field. If more than one
message has the same timestamp, the lexically lowest message ID sorts
earlier.
5.12. Delivery Reporting and Read Receipts
In instant messaging systems, read receipts typically generate a
distinct indicator for each message. In some systems, the number of
users in a group who have read the message is subtly displayed and
the list of users who read the message is available on further
inspection.
Of course, Internet mail has support for read receipts as well, but
the existing message disposition notification mechanism defined for
email in [RFC8098] is completely inappropriate in this context:
* notifications can be sent by intermediaries
* only one notification can be sent about a single message per
recipient
* a human-readable version of the notification is expected
* each notification can refer to only one message
* it is extremely verbose
Instead we would like to be able to include status changes about
multiple messages in each report, the ability to mark a message
delivered, then read, then unread, then expired for example.
The format below, application/mimi-message-status is sent by one
member of an MLS group to the entire group and can refer to multiple
messages in that group. The format contains its own timestamp, and a
list of message ID / status pairs. As the status at the recipient
changes, the status can be updated in a subsequent notification.
Below is the CDDL schema for message status.
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MessageStatusReport = [
timestamp: Timestamp,
statuses: [ * PerMessageStatus ]
]
PerMessageStatus = [
messageId: MessageId,
status: baseStatus / $extStatus / unknownStatus
]
baseStatus = &(
unread: 0,
delivered: 1,
read: 2,
expired: 3,
deleted: 4,
hidden: 5,
error: 6
)
unknownStatus = &( unknown: 7..255 )
MessageId = bstr .size 32
Timestamp = #6.62(uint .size 8) ; milliseconds since start of UNIX epoch
* Sender user handle URL: im:bob-jones@example.com
5.12.1. Delivery Report Example
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[
62(1644284703227), / Timestamp of the report /
[
[
/ Original message /
h'd3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501',
2 / status = read /
],
[
/ Reply message /
h'e701beee59f9376282f39092e1041b2ac2e3aad1776570c1a28de244979c71ed',
2 / status = read /
],
[
/ Mention message /
h'6b50bfdd71edc83554ae21380080f4a3ba77985da34528a515fac3c38e4998b8',
0 / status = unread /
],
[
/ Expiring message /
h'5c95a4dfddab84348bcc265a479299fbd3a2eecfa3d490985da5113e5480c7f1',
3 / status = expired /
]
]
]
82 # array(2)
d8 3e # tag(62)
1b 0000017ed70171fb # unsigned(1644284703227)
84 # array(4)
82 # array(2)
58 20 # bytes(32)
d3c14744d1791d02548232c23d35efa97668174ba385af066011e43bd7e51501
02 # unsigned(2)
82 # array(2)
58 20 # bytes(32)
e701beee59f9376282f39092e1041b2ac2e3aad1776570c1a28de244979c71ed
02 # unsigned(2)
82 # array(2)
58 20 # bytes(32)
6b50bfdd71edc83554ae21380080f4a3ba77985da34528a515fac3c38e4998b8
00 # unsigned(0)
82 # array(2)
58 20 # bytes(32)
5c95a4dfddab84348bcc265a479299fbd3a2eecfa3d490985da5113e5480c7f1
03 # unsigned(3)
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6. Support for Specific Media Types
6.1. MIMI Required and Recommended media types
As the MIMI Content container is just a container, the plain text or
rich text messages sent inside, and any image or other formats needs
to be specified. Clients compliant with MIMI MUST be able to receive
the following media types:
* application/mimi-content -- the MIMI Content container format
(described in this document)
* text/plain;charset=utf-8
* text/markdown;variant=GFM-MIMI -- Github Flavored Markdown for
MIMI, defined in Section 6.1.1
Note that it is acceptable to render the contents of a received
markdown document as plain text.
The following MIME types are RECOMMENDED:
* text/markdown;variant=CommonMark -- CommonMark
(https://spec.commonmark.org/0.30)
* text/html
* application/mimi-message-status -- (described in this document)
* image/jpeg
* image/png
Clients compliant with this specification must be able to download
ExternalParts with http and https URLs, and decrypt downloaded
content encrypted with the AES-128-GCM AEAD algorithm.
6.1.1. Specifics of Github Flavored Markdown in MIMI
A MIMI content client supports GitHub Flavored Markdown as defined in
[GFM], with two changes: the Autolink extension is not supported; and
instead of the Disallowed Raw HTML extension (tagfilter), the No HTML
extension (nohtml), which is defined here, is MANDATORY. (For
clarity, a fixed list of supported extensions, is further described
in the bullet points below.)
To implement the No HTML extension to GFM, the opening angle bracket
(<) of any HTML tag (as defined in Section 6.10 of [GFM]) is replaced
with < before sending. Any HTML tag in a received message is
rendered as plain text. Note that HTML tag includes open tags,
closing tags, HTML comments, processing instructions, declarations,
and CDATA sections.
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The following GitHub Flavored Markdown extensions are supported. No
other extensions are allowed:
* Tables
* Task list items
* Strikethrough
* No HTML
This document specifies what can be sent inside a MIMI content
message; it does not restrict or prescribe in any way how input from
a user is interpreted by an Instant Messaging client that support
MIMI, before any message resulting from that input is sent.
Note that rendering Markdown as plain text is an acceptable form of
"support".
6.2. Use of proprietary media types
As most messaging systems are proprietary, standalone systems, it is
useful to allow clients to send and receive proprietary formats among
themselves. Using the functionality in the MIMI Content container,
clients can send a message using the basic functionality described in
this document AND a proprietary format for same-vendor clients
simultaneously over the same group with end-to-end encryption. An
example is given in the Appendix.
7. IANA Considerations
RFC EDITOR: Please replace XXXX throughout with the RFC number
assigned to this document.
7.1. MIME subtype registration of application/mimi-content
This document proposes registration of a media subtype with IANA.
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Type name: application
Subtype name: mimi-content
Required parameters: none
Optional parameters: none
Encoding considerations:
This message type should be encoded as binary data
Security considerations:
See Section A of RFC XXXX
Interoperability considerations:
See Section Y.Z of RFC XXXX
Published specification: RFC XXXX
Applications that use this media type:
Instant Messaging Applications
Fragment identifier considerations: N/A
Additional information:
Deprecated alias names for this type: N/A
Magic number(s): N/A
File extension(s): N/A
Macintosh file type code(s): N/A
Person & email address to contact for further information:
IETF MIMI Working Group mimi@ietf.org
7.2. MIME subtype registration of application/mimi-message-status
This document proposes registration of a media subtype with IANA.
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Type name: application
Subtype name: mimi-message-status
Required parameters: none
Optional parameters: none
Encoding considerations:
This message type should be encoded as binary data
Security considerations:
See Section A of RFC XXXX
Interoperability considerations:
See Section Y.Z of RFC XXXX
Published specification: RFC XXXX
Applications that use this media type:
Instant Messaging Applications
Fragment identifier considerations: N/A
Additional information:
Deprecated alias names for this type: N/A
Magic number(s): N/A
File extension(s): N/A
Macintosh file type code(s): N/A
Person & email address to contact for further information:
IETF MIMI Working Group mimi@ietf.org
7.3. MIMI Content Extension Keys registry
This document requests the creation of a new MIMI Content Extension
Keys registry. The registry should be under the heading of "More
Instant Messaging Interoperability (MIMI)".
The MIMI Content format defined in this document, contains an
extensions map in each message. The keys in the extensions map can
be (positive or negative) integers, or text strings. Text strings
and negative integer keys are reserved for private use. Positive
integer keys are assigned in the registry under the Expert Review
policy [RFC8126]. Integer keys between 1 and 255 are restricted to
IETF consensus specifications.
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The columns in the registry are as follows:
* Key: The extension map key positive integer assigned to the MIMI
content extension.
* Name: a short descriptive name for the MIMI content extension.
* Type: The CBOR data type of the value corresponding to the key.
Applications with multiple, related data items are encouraged to
register a map type that contains all the related fields.
* Recommended: Whether support for this MIMI content extension is
recommended by the IETF. Valid values are "Y", "N", and "D", as
described below. The default value of the "Recommended" column is
"N". Setting the Recommended item to "Y" or "D", or changing an
item whose current value is "Y" or "D", requires Standards Action
[RFC8126].
- Y: Indicates that the IETF has consensus, and that the item is
RECOMMENDED. This only means that the associated mechanism is
fit for the purpose for which it was defined. Careful reading
of the documentation for the mechanism is necessary to
understand the applicability of that mechanism. The IETF could
recommend mechanisms that have limited applicability, but will
provide applicability statements that describe any limitations
of the mechanism or necessary constraints on its use.
- N: Indicates that the item has not been evaluated by the IETF
and that the IETF has made no statement about the suitability
of the associated mechanism. This does not necessarily mean
that the mechanism is flawed, only that no consensus exists.
The IETF might have consensus to leave an item marked as "N" on
the basis of it having limited applicability or usage
constraints.
- D: Indicates that the item is discouraged and SHOULD NOT or
MUST NOT be used. This marking could be used to identify
mechanisms that might result in problems if they are used, such
as a weak cryptographic algorithm or a mechanism that might
cause interoperability problems in deployment.
* Reference: The document where this MIMI content extension is
defined
Initial Contents:
+=====+============+======+===+===========+
| Key | Name | Type | R | Reference |
+=====+============+======+===+===========+
| 0 | (reserved) | - | - | RFCXXXX |
+-----+------------+------+---+-----------+
Table 1
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7.3.1. Expert Review
Expert Review [RFC8126] registry requests are registered after a
three-week review period on the MIMI Designated Expert (DE) mailing
list mimi-reg-review@ietf.org (mailto:mimi-reg-review@ietf.org) on
the advice of one or more of the MIMI DEs.
Registration requests sent to the MIMI DEs' mailing list for review
SHOULD use an appropriate subject (e.g., "Request to register value
in MIMI Content Extensions Keys registry").
Within the review period, the MIMI DEs will either approve or deny
the registration request, communicating this decision to the MIMI
DEs' mailing list and IANA. Denials SHOULD include an explanation
and, if applicable, suggestions as to how to make the request
successful. Registration requests that are undetermined for a period
longer than 21 days can be brought to the IESG's attention for
resolution using the iesg@ietf.org (mailto:iesg@ietf.org) mailing
list.
Criteria that SHOULD be applied by the MIMI DEs includes determining
whether the proposed registration duplicates existing functionality,
whether it is likely to be of general applicability or useful only
for a single application, and whether the registration description is
clear.
IANA MUST only accept registry updates from the MIMI DEs and SHOULD
direct all requests for registration to the MIMI DEs' mailing list.
In cases where a registration decision could be perceived as creating
a conflict of interest for a particular MIMI DE, that MIMI DE SHOULD
defer to the judgment of the other MIMI DEs.
7.4. GFM-MIMI Markdown variant
This document registers a new Markdown variant in the IANA Markdown
Variants registry. The registration template below conforms with
[RFC7763].
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Identifier: GFM-MIMI
Name: GitHub Flavored Markdown Subset for MIMI
Description:
GitHub Flavored Markdown, without Autolinks and with no embedded HTML
References: RFCXXXX
Contact Information:
IETF MIMI Working Group
8. Security Considerations
8.1. General handling
The following cases are examples of nonsensical values that most
likely represent malicious messages. These should be logged and
discarded.
* sender of the message
- where the apparent sender is not a member of the target MLS
group
* message IDs
- which duplicate another message ID already encountered
- where the first octet of the message ID is an unknown hash
algorithm.
* timestamps
- received more than a few minutes in the future, or
- before the first concrete syntax of this document is published
- before the room containing them was created
* topicId
- the topicId is very long (greater than 4096 octets)
* expires
- refers to a date more than a year in the past (only possible
with absolute expiration)
- refers to a date more than a year in the future (possible with
both relative and absolute expiration)
* lastSeen
- is empty, but the sender has previously sent messages in the
room
- results in a loop
- refers to an excessive number of lastSeen messages
simultaneously (contains more than 65535 message IDs). (Note
that a popular message sent in a large group can result in
thousands of reactions in a few hundred milliseconds.)
* body
- has too many body parts (more than 1024)
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- is nested too deeply (more than 4 levels deep)
- is too large (according to local policy)
- has an unknown PartSemantics value
For the avoidance of doubt, the following cases may be examples of
legitimate use cases, and should not be considered the result of a
malicious sender.
* message IDs
- where inReplyTo or replaces refer to an unknown message. Such
a message could have been sent before the local client joined.
* lastSeen
- refers to an unknown message
- is empty for the sender's first message sent in the room
* body
- where a body part contains an unrecognized Disposition value.
The unknown value should be treated as if it where render.
- where a contentType is unrecognized or unsupported.
- where a language tag is unrecognized or unsupported.
8.2. Generating the random salt
To ensure a strong source of entropy for the per-message unique salt
required in each message, the client can export a secret from the MLS
key schedule, for example with the label salt_base_secret and
calculate the salt as the HMAC of a locally generated nonce and the
franking_base_secret.
salt = HMAC_SHA256( salt_base_secret, nonce )
8.3. Rendering and authorization of edits and deletes
This content format allows clients to send new versions of previously
sent messages, effectively replacing ("editing") or retracting
("deleting") another referenced message. The rendering of these
"edits" and "deletes" are important from a security perspective.
For example, if Alice writes "Bob, could I borow a pen?", and Bob
reacts with a thumbs up emoji, Alice might edit this message with no
change in meaning (correcting the spelling of "borrow"), or a
dramatic change in meaning ("Bob, could I borrow your Ferrari this
month?"). The receiver SHOULD indicate clearly that a received
message has been edited or retracted. The receiver might:
* offer an option to view previous versions of a message,
* show a summarized or thumbnail version of a message referenced in
a reply,
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* indicate clearly that a reply was to a previous version of a
message than the most recent one.
* show a detailed view of reaction indicating that some reactions
referred to a previous version of the message.
In addition, some groups may have special policies or permissions
allowing specific types of edits or deletes. For example, a
moderator in one room might be allowed to edit the topic of a
message, but not modify the rest of the content. An administrator
might be allowed to delete messages which violate the policy of the
group. Receiving clients MUST NOT allow parties other than the
original sender of a message to edit or delete that message, unless
there is a specific, concrete authorization policy which allows it.
Likewise, even the original sender of a message MUST NOT be able to
change the semantics of any other portion of the message except for
the contents of the NestedPart, without specific authorization.
8.4. Validation of timestamp
The timestamp is the time a message is accepted by the hub provider.
As such, the hub provider can manipulate the timestamp, and the
sending provider can delay sending messages selectively to cause the
timestamp on a hub to be later. Note that the optional franking
mechanism discussed in Section 5.4.1.2 of [I-D.ietf-mimi-protocol]
prevents follower servers from modifying the timestamp.
| *TODO*: Discuss how to sanity check lastSeen, timestamp and the
| MLS epoch and generation, and the limitations of this approach.
8.5. Alternate content rendering
This document includes a mechanism where the sender can offer
alternate versions of content in a single message. For example, the
sender could send:
* an plain text and an HTML version of a text message
* a thumbnail preview and link to a high-resolution image or video
* versions of the same message in multiple languages
* an PNG image and a scalable vector graphics version of a line
drawing
A malicious client could use this mechanism to send content that will
appear different to a subset of the members of a group and possibly
elicit an incorrect or misleading response.
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Message as seen by Alice (manager)
Xavier: Do you want me to reserve a room for the review meeting?
Message as seen by Bob (Alice's assistant)
Xavier: @Bob I need to pickup Alice's Ferarri keys. She'll confirm
Reply sent by Alice
Alice: Yes please.
8.6. Link and Mention handling
Both Markdown and HTML support links. Using the example of an https
link, if the rendered text and the link target match exactly or are
canonically equivalent, there is no need for confirmation if the end
user selects the link.
[example.com/foobar](https://example.com/foobar)
[https://example.com/foobar](https://example.com/foobar)
[https://example.com:443/foobar](https://example.com/foobar)
However, if the link text is different, or the scheme is downgraded
from https to http, the user should be presented with an alert
warning that the text is not the same.
[https://example.com/foobar](https://spearphishers.example/foobar)
[https://example.com/foobar](http://example.com/foobar)
An IM URI link to a user who has a member client in the MLS group in
which the message was sent is considered a mention. Clients may
support special rendering of mentions instead of treating them like
any other type of link. In Markdown and HTML, the display text
portion of a link is considered a rendering hint from the sender to
the receiver of the message. The receiver should use local policy to
decide if the hint is an acceptable local representation of the user
represented by the link itself. If the hint is not an acceptable
representation, the client should instead display its canonical
representation for the user.
For example, in the first example, the sender expresses no preference
about how to render the mention. In the second example, the sender
requests that the mention is rendered as the literal URI. In the
third example, the sender requests the canonical handle for Alice.
In the fourth example, the sender requests Alice's first name.
[im:alice-smith@example.com](im:alice-smith@example.com)
[@AliceSmith](im:alice-smith@example.com)
[Alice](im:alice-smith@example.com)
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Note that in some clients, presence of a mention for the local user
may result in a different notification policy.
If the client does not support special rendering of mentions, the
application, should render the text like any other link.
8.7. Delivery and Read Receipts
Delivery and Read Receipts can provide useful information inside a
group, or they can reveal sensitive private information. In many IM
systems there is are per-group policies for and/or delivery read
receipts:
* they are required
* they are permitted, but optional
* they are forbidden
In the first case, everyone in the group would have to claim to
support read receipts to be in the group and agree to the policy of
sending them whenever a message was read. A user who did not wish to
send read receipts could review the policy (automatically or
manually) and choose not to join the group. Of course, requiring
read receipts is a cooperative effort just like using self-deleting
messages. A malicious client could obviously read a message and not
send a read receipt, or send a read receipt for a message that was
never rendered. However, cooperating clients have a way to agree
that they will send read receipts when a message is read in a
specific group.
In the second case, sending a read receipt would be at the discretion
of each receiver of the message (via local preferences).
9. References
9.1. Normative References
[GFM] GitHub, "GitHub Flavored Markdown Spec, Version 0.29-gfm",
6 March 2019, .
[I-D.ietf-mls-extensions]
Robert, R., "The Messaging Layer Security (MLS)
Extensions", Work in Progress, Internet-Draft, draft-ietf-
mls-extensions-05, 21 October 2024,
.
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[RFC2119] Bradner, S., "Key words for use in RFCs to Indicate
Requirement Levels", BCP 14, RFC 2119,
DOI 10.17487/RFC2119, March 1997,
.
[RFC2392] Levinson, E., "Content-ID and Message-ID Uniform Resource
Locators", RFC 2392, DOI 10.17487/RFC2392, August 1998,
.
[RFC3862] Klyne, G. and D. Atkins, "Common Presence and Instant
Messaging (CPIM): Message Format", RFC 3862,
DOI 10.17487/RFC3862, August 2004,
.
[RFC5116] McGrew, D., "An Interface and Algorithms for Authenticated
Encryption", RFC 5116, DOI 10.17487/RFC5116, January 2008,
.
[RFC5646] Phillips, A., Ed. and M. Davis, Ed., "Tags for Identifying
Languages", BCP 47, RFC 5646, DOI 10.17487/RFC5646,
September 2009, .
[RFC8126] Cotton, M., Leiba, B., and T. Narten, "Guidelines for
Writing an IANA Considerations Section in RFCs", BCP 26,
RFC 8126, DOI 10.17487/RFC8126, June 2017,
.
[RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC
2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174,
May 2017, .
[RFC8610] Birkholz, H., Vigano, C., and C. Bormann, "Concise Data
Definition Language (CDDL): A Notational Convention to
Express Concise Binary Object Representation (CBOR) and
JSON Data Structures", RFC 8610, DOI 10.17487/RFC8610,
June 2019, .
[RFC8949] Bormann, C. and P. Hoffman, "Concise Binary Object
Representation (CBOR)", STD 94, RFC 8949,
DOI 10.17487/RFC8949, December 2020,
.
[RFC9420] Barnes, R., Beurdouche, B., Robert, R., Millican, J.,
Omara, E., and K. Cohn-Gordon, "The Messaging Layer
Security (MLS) Protocol", RFC 9420, DOI 10.17487/RFC9420,
July 2023, .
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[W3C.CR-html52-20170808]
Faulkner, S., Eicholz, A., Leithead, T., Danilo, A., and
S. Moon, "HTML 5.2", World Wide Web Consortium CR CR-
html52-20170808, 8 August 2017,
.
9.2. Informative References
[DoubleRatchet]
Perrin, T. and M. Marlinspike, "The Double Ratchet
Algorithm", 20 November 2016,
.
[I-D.ietf-cbor-edn-literals]
Bormann, C., "CBOR Extended Diagnostic Notation (EDN)",
Work in Progress, Internet-Draft, draft-ietf-cbor-edn-
literals-14, 9 December 2024,
.
[I-D.ietf-mimi-arch]
Barnes, R., "An Architecture for More Instant Messaging
Interoperability (MIMI)", Work in Progress, Internet-
Draft, draft-ietf-mimi-arch-01, 21 November 2024,
.
[I-D.ietf-mimi-protocol]
Barnes, R., Hodgson, M., Kohbrok, K., Mahy, R., Ralston,
T., and R. Robert, "More Instant Messaging
Interoperability (MIMI) using HTTPS and MLS", Work in
Progress, Internet-Draft, draft-ietf-mimi-protocol-02, 21
October 2024, .
[I-D.mahy-mimi-identity]
Mahy, R., "More Instant Messaging Interoperability (MIMI)
Identity Concepts", Work in Progress, Internet-Draft,
draft-mahy-mimi-identity-02, 10 July 2023,
.
[RFC2046] Freed, N. and N. Borenstein, "Multipurpose Internet Mail
Extensions (MIME) Part Two: Media Types", RFC 2046,
DOI 10.17487/RFC2046, November 1996,
.
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[RFC2183] Troost, R., Dorner, S., and K. Moore, Ed., "Communicating
Presentation Information in Internet Messages: The
Content-Disposition Header Field", RFC 2183,
DOI 10.17487/RFC2183, August 1997,
.
[RFC3156] Elkins, M., Del Torto, D., Levien, R., and T. Roessler,
"MIME Security with OpenPGP", RFC 3156,
DOI 10.17487/RFC3156, August 2001,
.
[RFC3261] Rosenberg, J., Schulzrinne, H., Camarillo, G., Johnston,
A., Peterson, J., Sparks, R., Handley, M., and E.
Schooler, "SIP: Session Initiation Protocol", RFC 3261,
DOI 10.17487/RFC3261, June 2002,
.
[RFC5545] Desruisseaux, B., Ed., "Internet Calendaring and
Scheduling Core Object Specification (iCalendar)",
RFC 5545, DOI 10.17487/RFC5545, September 2009,
.
[RFC6120] Saint-Andre, P., "Extensible Messaging and Presence
Protocol (XMPP): Core", RFC 6120, DOI 10.17487/RFC6120,
March 2011, .
[RFC6350] Perreault, S., "vCard Format Specification", RFC 6350,
DOI 10.17487/RFC6350, August 2011,
.
[RFC7763] Leonard, S., "The text/markdown Media Type", RFC 7763,
DOI 10.17487/RFC7763, March 2016,
.
[RFC8098] Hansen, T., Ed. and A. Melnikov, Ed., "Message Disposition
Notification", STD 85, RFC 8098, DOI 10.17487/RFC8098,
February 2017, .
[RFC8551] Schaad, J., Ramsdell, B., and S. Turner, "Secure/
Multipurpose Internet Mail Extensions (S/MIME) Version 4.0
Message Specification", RFC 8551, DOI 10.17487/RFC8551,
April 2019, .
[RFC9078] Crocker, D., Signes, R., and N. Freed, "Reaction:
Indicating Summary Reaction to a Message", RFC 9078,
DOI 10.17487/RFC9078, August 2021,
.
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Appendix A. CDDL Schemas
Below are Concise Data Definition Language (CDDL) [RFC8610] schemas
for the formats described in the body of the document.
A.1. Complete Message Format Schema
mimiContent = [
salt: bstr .size 32,
replaces: null / MessageId,
topicId: bstr,
expires: null / Expiration,
inReplyTo: null / MessageId,
inReplyTo: null / InReplyTo,
lastSeen: [* MessageId],
extensions: {* name => value },
nestedPart: NestedPart
]
NestedPart = [
disposition: baseDispos / $extDispos / unknownDispos,
language: tstr,
( NullPart // SinglePart // ExternalPart // MultiPart)
]
NullPart = ( cardinality: nullpart )
SinglePart = (
cardinality: single,
contentType: tstr,
content: bstr
)
ExternalPart = (
cardinality: external,
contentType: tstr,
url: tstr,
expires: uint .size 4,
size: uint .size 8,
encAlg: uint .size 2,
key: bstr,
nonce: bstr,
aad: bstr,
hashAlg: uint .size 1,
contentHash: bstr,
description: tstr,
filename: tstr
)
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MultiPart = (
cardinality: multi,
partSemantics: chooseOne / singleUnit / processAll,
parts: [2* NestedPart]
)
Expiration = [
relative: bool,
time: uint .size 4
]
baseDispos = &(
unspecified: 0,
render: 1,
reaction: 2,
profile: 3,
inline: 4,
icon: 5,
attachment: 6,
session: 7,
preview: 8
)
unknownDispos = &( unknown: 9..255 ) ; Note: any ext_dispos take precedence
MessageId = bstr .size 32 ; MessageId is derived from SHA256 hash
name = int / tstr .size (1..255)
value = any .size (0..4095)
nullpart = 0
single = 1
external = 2
multi = 3
chooseOne = 0
singleUnit = 1
processAll = 2
A.2. Implied Message Fields
Below is a CDDL schema for the implied message fields.
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MessageDerivedValues = [
messageId: MessageId, ; sha256 hash of message ciphertext
hubAcceptedTimestamp: Timestamp,
mlsGroupId: bstr,
senderLeafIndex: uint .size 4,
senderClientUrl: MsgUri,
senderUserUrl: MsgUri,
roomUrl: MsgUri
]
MsgUri = tstr
MessageId = bstr .size 32
Timestamp = #6.62(uint .size 8) ; milliseconds since start of UNIX epoch
A.3. Delivery Report Format
MessageStatusReport = [
timestamp: Timestamp,
statuses: [ * PerMessageStatus ]
]
PerMessageStatus = [
messageId: MessageId,
status: baseStatus / $extStatus / unknownStatus
]
baseStatus = &(
unread: 0,
delivered: 1,
read: 2,
expired: 3,
deleted: 4,
hidden: 5,
error: 6
)
unknownStatus = &( unknown: 7..255 )
MessageId = bstr .size 32
Timestamp = #6.62(uint .size 8) ; milliseconds since start of UNIX epoch
Appendix B. Multipart examples
In a heterogenous group of IM clients, it is often desirable to send
more than one media type as alternatives, such that IM clients have a
choice of which media type to render. For example, imagine an IM
group containing a set of clients which support a common video format
and a subset which only support animated GIFs. The sender could use
a MultiPart NestablePart with chooseOne semantics containing both
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media types. Every client in the group chat could render something
resembling the media sent. This is analogous to the multipart/
alternative [RFC2046] media type.
Likewise it is often desirable to send more than one media type
intended to be rendered together as in (for example a rich text
document with embedded images), which can be represented using a
MultiPart NestablePart with processAll semantics. This is analogous
to the multipart/mixed [RFC2046] media type.
Note that there is a minor semantic difference between multipart/
alternative and MultiPart with chooseOne semantics. In multipart/
alternative, the parts are presented in preference order by the
sender. With MultiPart the receiver chooses its "best" format to
render according to its own preferences.
B.1. Proprietary and Common formats sent as alternatives
This shows sending a message containing both this profile and a
proprietary messaging format simultaneously.
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[
null, / replaces /
h'', / topicId /
null, / expires /
null, / inReplyTo /
[], / lastSeen /
{}, / extensions /
[
1, / disposition = render /
"", / language /
/ partIndex = 0 (1st part) /
3, / cardinality = multi /
0, / partSemantics = chooseOne /
[
[
1, / disposition = render /
"", / language /
/ partIndex = 1 /
1, / cardinality = single /
"text/markdown;variant=GFM", / contentType /
'# Welcome!' / content /
],
[
1, / disposition = render /
"", / language /
/ partIndex = 2 /
1, / cardinality = single /
/ contentType /
"application/vnd.examplevendor-fancy-im-message",
h'dc861ebaa718fd7c3ca159f71a2001' / content /
]
]
]
]
B.2. Mulitple Reactions Example
This example shows sending a reaction with multiple separate emojis.
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[
null, / replaces /
h'', / topicId /
null, / expires /
null, / inReplyTo /
[], / lastSeen /
{}, / extensions /
[
1, / disposition = render /
"", / language /
/ partIndex = 0 (1st part) /
3, / cardinality = multi /
2, / partSemantics = processAll /
[
[
1, / disposition = render /
"", / language /
/ partIndex = 1 /
1, / cardinality = single /
"text/plain;charset=utf-8", / contentType /
h'E2 9D A4' / content = Unicode "heart" /
],
[
1, / disposition = render /
"", / language /
/ partIndex = 2 /
1, / cardinality = single /
"text/plain;charset=utf-8", / contentType /
h'F0 9F A5 B3' / content = Unicode "party face" /
],
[
1, / disposition = render /
"", / language /
/ partIndex = 3 /
1, / cardinality = single /
"text/plain;charset=utf-8", / contentType /
h'F0 9F A4 9E' / content = Unicode "fingers crossed" /
]
]
]
]
B.3. Complicated Nested Example
This example shows separate GIF and PNG inline images with English
and French versions of an HTML message. A summary of the 11 parts
are shown below.
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Part Description
0 choose either GIF or PNG
1 (with GIF) process all
2 choose either English or French
3 English
4 French
5 GIF
6 (with PNG) process all
7 choose either English or French
8 English
9 French
10 PNG
[
null, / replaces /
h'', / topicId /
null, / expires /
null, / inReplyTo /
[], / lastSeen /
{}, / extensions /
[
1, / disposition = render /
"", / language /
/ partIndex = 0 (1st part) /
3, / cardinality = multi /
0, / partSemantics = chooseOne /
[
[
1, / disposition = render /
"", / language /
/ partIndex = 1 /
3, / cardinality = multi /
2, / partSemantics = processAll /
[
[
1, / disposition = render /
"", / language /
/ partIndex = 2 /
3, / cardinality = multi /
0, / partSemantics = chooseOne /
[
[
1, / disposition = render /
"en", / language /
/ partIndex = 3 /
1, / cardinality = single /
"text/html;charset=utf-8", / contentType /
/ content /
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'Welcome!
\n'
'
\n'
''
], / English HTML /
[
1, / disposition = render /
"fr", / language /
/ partIndex = 4 /
1, / cardinality = single /
"text/html;charset=utf-8", / contentType /
/ content /
'Bienvenue!
\n'
'\n'
''
] / French HTML /
]
], / English or French HTML (refers to GIF)/
[
4, / disposition = inline /
"", / language /
/ partIndex = 5 /
1, / cardinality = single /
"image/gif", / contentType /
h'028f83c894ca744f' / content /
] / GIF /
]
], / GIF with English or French HTML /
[
1, / disposition = render /
"", / language /
/ partIndex = 6 /
3, / cardinality = multi /
2, / partSemantics = processAll /
[
[
1, / disposition = render /
"", / language /
/ partIndex = 7 /
3, / cardinality = multi /
0, / partSemantics = chooseOne /
[
[
1, / disposition = render /
"en", / language /
/ partIndex = 8 /
1, / cardinality = single /
"text/html;charset=utf-8", / contentType /
/ content /
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'Welcome!
\n'
'
\n'
''
], / English HTML /
[
1, / disposition = render /
"fr", / language /
/ partIndex = 9 /
1, / cardinality = single /
"text/html;charset=utf-8", / contentType /
/ content /
'Bienvenue!
\n'
'\n'
''
] / French HTML /
]
], / English or French HTML (refers to PNG)/
[
4, / disposition = inline /
"", / language /
/ partIndex = 10 /
1, / cardinality = single /
"image/png",
h'6963cff36275fdb8' / content /
] / PNG /
]
] / PNG with English or French HTML /
] / GIF or PNG (with English or French HTML) /
]
]
Appendix C. Changelog
RFC Editor, please remove this entire section.
C.1. Changes between draft-mahy-mimi-content-01 and draft-mahy-mimi-
content-02
* made semantics abstract (C++ structs) instead of using CPIM or
MIME headers
C.2. Changes between draft-mahy-mimi-content-02 and draft-ietf-mimi-
content-00
* replaced threadId with topicId
* inReplyTo now has a hash of the referenced message
* clarified that replies are always to a specific version of a
modified message
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* changed timestamp to a whole number of milliseconds since the
epoch to avoid confusion
* added Security Considerations section
* added IANA Considerations section
* added change log
C.3. Changes between draft-ietf-mimi-content-00 and draft-ietf-mimi-
content-01
* created new abstract format for attachment information, instead of
using message/external-body
* added discussion of encrypting external content
* clarified the difference between render and inline dispositions
* created a way for the messageId and timestamp to be shared in the
MLS additional authenticated data field
* expanded discussion of what can and should be rendered when a
mention is encountered; discussed how to prevent confusion attacks
with mentions.
* added a lastSeen field used to ensure a more consistent sort order
of messages in a room.
C.4. Changes between draft-ietf-mimi-content-01 and draft-ietf-mimi-
content-02
* consensus at IETF 118 was to use a hash of the ciphertext in lieu
of the message ID
* consensus at IETF 118 was to use the hub accepted timestamp for
protocol actions like sorting
* Updated author's address
C.5. Changes between draft-ietf-mimi-content-02 and draft-ietf-mimi-
content-03
* added hash of content to external content
* replaced abstract syntax with concrete TLS Presentation Language
and CBOR syntaxes
C.6. Changes between draft-ietf-mimi-content-03 and draft-ietf-mimi-
content-04
* use CBOR as the binary encoding
* add multipart examples
C.7. Changes between draft-mahy-mimi-content-04 and draft-mahy-mimi-
content-05
* change message ID construction: TODO: fix examples
* remove partIndex and make it implied
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* mention Content ID URI (cid:) and describe implicit partIndex
* discuss rendering and authorization issues for edit/delete in the
security considerations
* include both absolute and relative expiration times
* add specificity about markdown support / create GFM-MIMI Markdown
variant
* remove tag from URLs in ExternalPart and implied headers
Author's Address
Rohan Mahy
Rohan Mahy Consulting Services
Email: rohan.ietf@gmail.com
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