didcomm-messaging-python

This is a minimal but flexible implementation of DIDComm Messaging. To learn more about DIDComm Messaging, check out the spec or visit didcomm.org to learn about DIDComm Messaging protocols defined by the community.

Usage

didcomm-messaging-python/example.py

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           """Example of using DIDComm Messaging.""" 
        
           from aries_askar import Key, KeyAlg 
        
           from didcomm_messaging.crypto.askar import AskarCryptoService, AskarSecretKey 
        
           from didcomm_messaging.crypto.basic import InMemorySecretsManager 
        
           from didcomm_messaging.didcomm import PackagingService 
        
           from didcomm_messaging.multiformats import multibase 
        
           from didcomm_messaging.multiformats import multicodec 
        
           from didcomm_messaging.resolver.peer import Peer2, Peer4 
        
           from didcomm_messaging.resolver import PrefixResolver 
        
           from did_peer_2 import KeySpec, generate, json 
        
           async def main(): 
        
               """An example of using DIDComm Messaging.""" 
        
               secrets = InMemorySecretsManager() 
        
               crypto = AskarCryptoService() 
        
               packer = PackagingService( 
        
                   PrefixResolver({"did:peer:2": Peer2(), "did:peer:4": Peer4()}), crypto, secrets 
        
               ) 
        
               verkey = Key.generate(KeyAlg.ED25519) 
        
               xkey = Key.generate(KeyAlg.X25519) 
        
               did = generate( 
        
                   [ 
        
                       KeySpec.verification( 
        
                           multibase.encode( 
        
                               multicodec.wrap("ed25519-pub", verkey.get_public_bytes()), 
        
                               "base58btc", 
        
                           ) 
        
                       ), 
        
                       KeySpec.key_agreement( 
        
                           multibase.encode( 
        
                               multicodec.wrap("x25519-pub", xkey.get_public_bytes()), "base58btc" 
        
                           ) 
        
                       ), 
        
                   ], 
        
                   [], 
        
               ) 
        
               await secrets.add_secret(AskarSecretKey(verkey, f"{did}#key-1")) 
        
               await secrets.add_secret(AskarSecretKey(xkey, f"{did}#key-2")) 
        
               print(did) 
        
               packed = await packer.pack(b"hello world", [did], did) 
        
               print(json.dumps(json.loads(packed), indent=2)) 
        
               unpacked = await packer.unpack(packed) 
        
               print(unpacked) 
        
           if __name__ == "__main__": 
        
               import asyncio 
        
               asyncio.run(main())

Overview

This library has the following core components (as outlined in the layer cake architecture diagram above):

CryptoService

The CryptoService provides the core cryptographic capabilities needed to encrypt and decrypt DIDComm Messages. This service is designed to be implemented by users of this library; however, an implementation using Aries Askar is available as an extra (install the askar extra to use it). Additional implementations may be added as extras in the future (i.e. an implementation using Authlib's JWE implementation or perhaps an implementation backed by an HSM). The service is seprate from but closely coupled with the SecretsManager. Both must use the same public and private key representations.

Warning

TODO:

More details on implementing your own CryptoService
More details on using the included Askar CryptoService

SecretsManager

The SecretsManager is responsible for retrieving secrets for use by the CryptoService. It is notable that the secret value need not literally contain the value of a private key. For example, in the included Askar implementation, an Askar Key value is retrieved. This object in python does permit you to retrieve the bytes of the secret key from Askar if you choose; however, this is not necessary for the operation of the library. This enables Askar to keep the private key value down in the Rust layer where it can better ensure security of the key (zeroizing memory, etc.). This is not so distant from interacting with an HSM; as long as the SecretKey value retrieved by the SecretsManager can be used by the CryptoService to perform the required cryptographic operations, exactly what is stored inside of the SecretKey object is irrelevant.

Warning

TODO:

More details on implementing your own SecretsManager
More details on the included AskarSecretsManager

DIDResolver

This component provides a fairly generic DID Resolution interface. Users of this library will provide a resolver implementation for the DID Methods they care about. Implementations of did:peer:2 and did:peer:4 are included as part of the did_peer extra.

Warning

TODO:

More details on PrefixResolver
More details on implementing your own DIDResolver

PackagingService

The PackagingService is responsible for the core functions of packing and unpacking messages. It depends on the CryptoService, the SecretsManager, and the DIDResolver to accomplish this.

Warning

TODO:

More details on PackagingService

RoutingService

The RoutingService is responsible for preparing messages for forwarding to a mediator. It depends on the PackagingService and the DIDResolver to accomplish this.

Warning

TODO:

More details on RoutingService