DiME 1.0.3
See the version list below for details.
dotnet add package DiME --version 1.0.3
NuGet\Install-Package DiME -Version 1.0.3
<PackageReference Include="DiME" Version="1.0.3" />
paket add DiME --version 1.0.3
#r "nuget: DiME, 1.0.3"
// Install DiME as a Cake Addin #addin nuget:?package=DiME&version=1.0.3 // Install DiME as a Cake Tool #tool nuget:?package=DiME&version=1.0.3
Di:ME C#/.NET reference implementation
Di:ME (Data Integrity Message Envelope) is a powerful universal data format that is built for secure, and integrity-protected communication between entities in a trusted network. It is built with modern thinking and ease of use throughout. Although it can be used together with X.509 certificates, it has it's own built-in public key-based entity identification through a trusted chain. This makes it equally suitable as an alternative to certificate-based PKIs.
Potential use cases for Di:ME includes:
- IOT networks for distributing sensitive data, including collected sensor data, operation instructions, patches, and firmware updates
- Automatic processing where audit trails and results logging is curial
- Peer-to-peer messaging where each response gets cryptographically linked
- Distribution of sensitive information and records within large networks
- Establishing application-based networks with trusted entities
The strength of Di:ME is its modular format, where applications and networks can pick and mix to suit their own specific needs. At the same time, it removes the need to build complicated mechanisms for authenticating senders and validating payloads of data.
More information can be found at the official documentation page.
Code examples
Here follow a few simple examples of how to use Di:ME. Note that there are much more features available, refer to the official documentation for further details.
Key generation example
Creating a public-key pair to use for creating Identity Issuing Requests (IIRs), signing messages, or issuing other identities:
var key = Key.Generate(KeyType.Identity);
Self issuing example
Create a self-issued, or root, identity with the capability to issue other identities:
var subjectId = Guid.NewGuid();
var key = Key.Generate(KeyType.Identity);
var caps = new List<Capability> { Capability.Generic, Capability.Issue };
var iir = IdentityIssuingRequest.Generate(key, caps);
var root = iir.SelfIssue(subjectId, IdentityIssuingRequest._VALID_FOR_1_YEAR * 10, key, "example-system");
Issue an identity from the root Identity
Issue a new identity from a root identity (the one created above):
var subjectId = Guid.NewGuid();
var key = Key.Generate(KeyType.Identity);
var caps = new List<Capability> { Capability.Generic, Capability.Identify };
var iir = IdentityIssuingRequest.Generate(key, caps);
var client = iir.Issue(subjectId, IdentityIssuingRequest._VALID_FOR_1_YEAR, key, root, true, caps);
This will create a trust chain. Normally the IIR is generated on the client-side and sent to the server to request a new identity. The generated key should be kept on the client-side and stored securely. The key is needed when generating and verifying messages.
In the above example, the client would be asking for an identity with the capabilities Generic and Identify. Generally Identify should be given when the client has been authenticated and when authentication is not done only Generic would be used. This is very system and application-specific.
Verify the trust of an identity
Verify the trust of a client identity from a system-wide root identity:
Identity.SetTrustedIdentity(root);
client.IsTrusted();
Verify the trust of a client identity from a specified identity:
client.IsTrusted(root);
Note that the above example has the same effect as the previous example. However, being able to specify which identity to verify from may be useful in more complex trust structures.
Message example
Creating a signed message with a payload:
var payload = Encoding.UTF8.GetBytes("Racecar is racecar backwards.");
var message = new Message(client.SubjectId, root.SubjectId, 120L);
message.SetPayload(payload);
message.Sign(key);
var exported = message.Export();
The message is signed with a previously created key, which is associated with the issuer (sender). Finally, the message is exported to a Di:ME encoded string that can be sent to the audience (receiver).
End-to-end encrypted message example
Creating a signed message with an end-to-end encrypted payload:
var localKey = Key.Generate(KeyType.Exchange);
var message = new Message(client.SubjectId, root.SubjectId, 120L);
message.SetPayload(Encoding.UTF8.GetBytes("Racecar is racecar backwards."), localKey, remoteKey);
message.Sign(key);
var exported = message.Export();
The remoteKey used in the example has to be distributed earlier. Notice that localKey is generated with the key type Exchange.
Linking a received message to a response message
Cryptographically linking a message together, so that it is possible to verify that a response is actually for a particular message received earlier:
var receivedMessage = Item.Import<Message>(exportedMessageReceived);
var responseMessage = new Message(receivedMessage.IssuerId, client.SubjectId, 120L);
responseMessage.SetPayload(Encoding.UTF8.GetBytes("Racecar is racecar backwards."));
responseMessage.LinkItem(receivedMessage);
responseMessage.Sign(Commons.AudienceKey);
var exportedMessageResponse = responseMessage.Export();
Generating thumbprints
Generating a thumbprint from a Di:ME identity that has been imported:
var identity = Item.Import<Identity>(exportedIdentity);
var thumbprint = identity.Thumbprint()
Generating a thumbprint from a Di:ME envelope (exported Di:ME item):
var thumbprint = Envelope.Thumbprint(exportedIdentity));
Thumbprints can be used to quickly verify if the Di:ME item has changed, or it is the item that was expected. A thumbprint is a cryptographic hash of the whole Di:ME item.
Product | Versions Compatible and additional computed target framework versions. |
---|---|
.NET | net5.0 is compatible. net5.0-windows was computed. net6.0 was computed. net6.0-android was computed. net6.0-ios was computed. net6.0-maccatalyst was computed. net6.0-macos was computed. net6.0-tvos was computed. net6.0-windows was computed. net7.0 was computed. net7.0-android was computed. net7.0-ios was computed. net7.0-maccatalyst was computed. net7.0-macos was computed. net7.0-tvos was computed. net7.0-windows was computed. net8.0 was computed. net8.0-android was computed. net8.0-browser was computed. net8.0-ios was computed. net8.0-maccatalyst was computed. net8.0-macos was computed. net8.0-tvos was computed. net8.0-windows was computed. |
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net5.0
- ASodium (>= 0.5.3)
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