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messages

The messages crate provides data structures representing the various messages used in Aries protocols. This README explores the architecture behind the crate and module organization to clarify the individual pieces and design decisions within the crate.

Glossary

  • message content: represents the protocol specific set of fields of a message
  • message decorators: represents the decorator fields of a message not directly linked to the processing of a message within a protocol
  • message family / protocol: represents the name of an Aries protocol, irrespective of its version (the present-proof part of https://didcomm.org/present-proof/1.0/propose-presentation)
  • message kind: represents the name of a particular message within a specific protocol (the propose-presentation part of https://didcomm.org/present-proof/1.0/propose-presentation)
  • message type: refers to the fully defined type of the message (which can translate to an entire, functional, @type field of an Aries message); it is comprised of a protocol, major version, minor version and message kind.

Message structure

All messages, from all protocols and all versions, are part of the parent AriesMessage enum. The individual messages from a specific version of a specific protocol are then implemented in a cascade, as follows:

  • AriesMessage
    • Connection
      • ConnectionV1

        • ConnectionV1_0

          • RequestV1_0
          • ResponseV1_0
        • ConnectionV1_1

          • RequestV1_1
          • ResponseV1_1
      • ConnectionV2

        • ConnectionV2_0

          • RequestV2_0
          • ResponseV2_0
        • ConnectionV2_1

          • RequestV2_1
          • ResponseV2_1
    • PresentProof
      • PresentProofV1
        • PresentProofV1_0
          • PresentationV1_0

NOTE: For simplicity, inner enums are avoided if there's no need for them (e.g: there's only one message in a protocol and/or there's only one protocol version implemented). Adding messages/protocol versions implies modifying existing enums to match their version.

Each individual message is then ultimately an alias to the MsgParts generic structure, which separates the message fields into categories:

  • MsgParts
    • id: the @id field of the message
    • content: a structure containing the protocol specific fields
    • decorators: a structure of decorator fields processable irrespective of the protocol this message is part of

NOTE: Decorators fields are not exclusive to the decorators structure. Protocol specifications often use fields like the ~attach decorator which is vital for the protocol implementation and is therefore part of the content struct. The decorators structure is meant for decorator fields that can be processed irrespective of the protocol being used, such as ~thread, ~timing, etc.

The @type field

Aries messages are differentiated by their @type field which contains the protocol, the protocol version and the specific message kind that a message is expected to be. Based on the @type field, we know what message structure to expect from the rest of the fields.

The crate takes advantage of delayed serialization/deserialization so that we first look at the @type field of a message and deduce what message structure to use for the rest of the fields.

The approach is similar with tagged serialization/deserialization in serde, with the caveat that we also do some version resolution as per Aries semver rules.

As a result, simple serde tagged serialization/deserialization is not sufficient. We instead dedicate the msg_types module for this purpose.

The msg_types module

We want to take the @type field and parse it to determine the exact protocol, version and message to process. The machinery is in place for that to happen through the delayed serialization/deserialization, but the protocol version resolution and all the possible variants for the @type field are located within this module and encapsulated in the Protocol enum.

Similarly to AriesMessage, the Protocol enum is represented in a cascading fashion such as:

  • Protocol
    • ConnectionType
      • ConnectionTypeV1
        • V1_0 -> ConnectionTypeV1_0
          • Request
          • Response
        • V1_1 -> ConnectionTypeV1_1
          • Request
          • Response

When deciding the minor version to use in a protocol, the protocol and version of the @type field is looked up in the PROTOCOL_REGISTRY (a lazily initialized map containing all protocols implemented). On success, the specified protocol version can be used as it is implemented. On failure, though, the minor version is decremented and looked up again until either the minor version reaches 0 or the lookup succeeds.

NOTE: The Protocol enum has values like: Protocol::ConnectionType::ConnectionTypeV1::V1_0. The exact message kind is not part of the enum but rather there is type-linking involved (hence the arrow ->). This allows the Protocol enum to represent only protocols and protocols version by itself, while also providing mechanisms for parsing the message kind and thus getting the exact message to further process.

The msg_fields module

This module contains the actual messages data structures with all fields defined (apart from @type). In practice, the module exports aliases for concrete definitions of MsgParts, such as pub type IssueCredential = MsgParts<IssueCredentialContent, IssueCredentialDecorators>;.

The relevant submodule then contains the actual definitions of the content and decorators data structure (such as IssueCredentialContent and IssueCredentialDecorators).

The decorators module

Contains data structures for decorators.

Unlike messages and their @type field, decorators get their version associated within their name ~thread/1. Since only major versions are used, swapping a decorators version in a message represents a breaking change and would have to be explicitly defined in the message's content/decorators data structure. No resolution is required.

Extending the crate

Adding new messages to the crate should be fairly easy to do, even without understanding all the inner workings. The main concepts needed are:

  • the AriesMessage enum encapsulates all messages
  • messages are serialized/deserialized conditionally based on their @type field
  • the @type field gets deserialized using the Protocol enum, through which all supported protocols can be resolved
  • the PROTOCOL_REGISTRY contains entries for all supported protocol versions, which is how minor version resolution is handled

With that in mind, a crude list of steps for extending the crate would be:

  • changes in the msg_types module:
    • adding/extending data types to represent the new protocol / protocol version
    • if adding the first version of a new protocol, extend the Protocol enum
    • add an entry to the PROTOCOL_REGISTRY
  • changes in the msg_fields module:
    • adding/extending data types to represent the message content and message decorators
  • if adding the first version of a new protocol, extend the AriesMessage enum