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Tools for mutual authentication and end-to-end encrypted messaging between distributed applications.

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Ockam

Rust and Elixir libraries for end-to-end encrypted, mutually authenticated communication between edge devices and cloud services.

Machines, within the Internet of Things, operate by exchanging messages, with cloud services and other connected machines. Secure, private, and trustworthy connected applications must protect these messages from eavesdropping, tampering, and forgery.

Ockam is a suite of programming libraries and infrastructure that make it simple for applications to dynamically create end-to-end encrypted, mutually authenticated, mutually authorized, lightweight secure channels that protect messages, end-to-end — from their source to their destination.

Features

  • End-to-end encrypted, mutually authenticated secure channels.
  • Key Lifecycle and Credential Exchange protocols.
  • Attribute-based Access Control with Credentials that support Selective Disclosure.
  • Add-Ons for a variety of transport protocols, hardware cryptography, and enterprise integrations.
  • Libraries for multiple languages - Rust, Elixir (more on the roadmap)

Concepts

Ockam

Secure Channels

To protect en-route messages against eavesdropping, tampering, and forgery … we usually need a cryptographic secure channel protocol.

Most IoT message transport protocols support some way to establish a secure channel. However, such secure channel protocols have traditionally been tightly coupled to their corresponding transport protocols. Their security guarantees are limited by the length and duration of a single transport layer connection.

This constraint, often leads to application architectures that violate the foundational security principle of least privilege … exposing applications to a vulnerability and liability surface that is a lot bigger than it needs to be.

Ockam secure channels are decoupled from the transport layer and instead use Ockam Application Layer Routing to provide end-to-end data integrity and confidentiality.

Application Layer Routing

It is common, for messages in intelligent, connected applications, to traverse a complex path that isn’t a simple point-to-point transport protocol connection.

To support occasionally connected devices, low power radio protocols and containerized microservices … messages usually travel via a number of message queues and caches, often over a series of network layer connections … before reaching their end destination.

Ockam Application Layer Routing is a compact binary protocol that can carry messages over multiple hops of transport layer connections. Each transport hop, along the route of a message, may use a different transport protocol.

It is possible to describe a route where the first hop is a TCP connection and the second hop is also a TCP connection. Or a different route where the first hop is a bluetooth connection, the second hop a TCP connection, and the third hop a UDP connection and so on.

This enables end-to-end Secure Channels over complex, multi-hop, multi-protocol routes. It also enables en-route encrypted messages to be stored in databases, message queues and caches for asynchronous, end-to-end, secure communication between entities that may not be online at the same time.

Transports

High level Ockam protocol implementations, like Secure Channels and Credential Exchange, are designed to remain the same regardless of how their messages are delivered. Support for a specific transport protocol can be plugged into the routing layer as a Transport add-on.

Vaults

Various Ockam protocols, like secure channels, key lifecycle, credential exchange, device enrollment etc. depend on a variety of standard cryptographic primitives or building blocks. Depending on the environment, these building blocks may be provided by a software implementation or a cryptographically capable hardware component.

In order to support a variety of cryptographically capable hardware we maintain loose coupling between our protocols and how a specific building block is invoked in a specific hardware. This is achieved using an abstract Vault interface. A concrete implementation of the Vault interface is called an Ockam Vault. Over time, and with help from the Ockam open source community, we plan to add vaults for several TEEs, TPMs, HSMs and Secure Enclaves.

Enterprise Integrations

Ockam protocols and libraries are designed to become a part of larger enterprise systems and applications. To make integration easy with existing enterprise applications, we are building add-ons that tightly integrate Ockam with other systems like Kafka, InfluxDB and Okta that are commonly leveraged within modern enterprise architectures.

Get Started

We've put together a short walk through of building your first Ockam application, click here to begin.

License

This code is licensed under the terms of the Apache License 2.0.


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  • Rust 69.4%
  • Elixir 30.6%