Skip to main content

No project description provided

Project description

Hyperledger Aries Cloud Agent - Python

pypi releases CircleCI codecov

An easy to use Aries agent for building SSI services using any language that supports sending/receiving HTTP requests.

Hyperledger Aries Cloud Agent Python (ACA-Py) is a foundation for building self-sovereign identity (SSI) / decentralized identity services running in non-mobile environments using DIDcomm messaging, the did:peer DID method, and verifiable credentials. With ACA-Py, SSI developers can focus on building services using familiar web development technologies instead of trying to learn the nuts and bolts of low-level SDKs.

As we create ACA-Py, we're also building resources so that developers with a wide-range of backgrounds can get productive with ACA-Py in a hurry. Checkout the resources section below and jump in.

The "cloud" in Aries Cloud Agent - Python does NOT mean that ACA-Py cannot be used as an edge agent. ACA-Py is suitable for use in any non-mobile agent scenario, including as an enterprise edge agent for issuing, verifying and holding verifiable credentials.

Table of Contents

Background

Developing an ACA-Py-based application is pretty straight forward for those familiar with web development. An ACA-Py instance is always deployed with a paired "controller" application that provides the business logic for that ACA-Py agent. The controller receives webhook event notifications from its instance of ACA-Py and uses an HTTP API exposed by the ACA-Py instance to provide direction on how to respond to those events. No ACA-Py/Python development is needed--just deploy an ACA-Py instance from PyPi (examples available). The source of the business logic is your imagination. An interface to a legacy system? A user interface for a person? Custom code to implement a new service? You can build your controller in any language that supports making and receiving HTTP requests. Wait...that's every language!

ACA-Py currently supports "only" Hyperledger Indy's verifiable credentials scheme (which is pretty powerful). We are experimenting with adding support to ACA-Py for other DID Ledgers and verifiable credential schemes.

ACA-Py is built on the Aries concepts and features defined in the Aries RFC repository. This document contains a (reasonably up to date) list of supported Aries RFCs by the current ACA-Py implementation.

Install

ACA-Py can be run with docker without installation, or can be installed from PyPi. Use the following command to install it locally:

pip install aries-cloudagent

Usage

Instructions for running ACA-Py can be found here.

Security

The administrative API exposed by the agent for the controller to use must be protected with an API key (using the --admin-api-key command line arg) or deliberately left unsecured using the --admin-insecure-mode command line arg. The latter should not be used other than in development if the API is not otherwise secured.

API

A deployed instance of an ACA-Py agent assembles an OpenAPI-documented REST interface from the protocols loaded with the agent. This is used by a controller application (written in any language) to manage the behaviour of the agent. The controller can initiate agent actions such as issuing a credential, and can respond to agent events, such as sending a presentation request after a new pairwise DID Exchange connection has been accepted. Agent events are delivered to the controller as webhooks to a configured URL. More information on the administration API and webhooks can be found here.

Resources

Quickstart

If you are an experienced decentralized identity developer that knows Indy, are already familiar with the concepts behind Aries, want to play with the code, and perhaps even start contributing to the project, an "install and go" page for developers can be found here.

Architectural Deep Dive

The ACA-Py team presented an architectural deep dive webinar that can be viewed here. Slides from the webinar can be found here.

Getting Started Guide

For everyone those new to SSI, Indy and Aries, we've created a Getting Started Guide that will take you from knowing next to nothing about decentralized identity to developing Aries-based business apps and services in a hurry. Along the way, you'll run some early Indy apps, apps built on ACA-Py and developer-oriented demos for interacting with ACA-Py. The guide has a good table of contents so that you can skip the parts you already know.

Read the Docs

The ACA-Py Python docstrings are used as the source of a Read the Docs code overview site. Want to review the modules that make up ACA-Py? This is the best place to go.

What to Focus On?

Not sure where your focus should be? Building apps? Aries? Indy? Indy's Blockchain? Ursa? Here is a document that goes through the technical stack to show how the projects fit together, so you can decide where you want to focus your efforts.

Credit

The initial implementation of ACA-Py was developed by the Verifiable Organizations Network (VON) team based at the Province of British Columbia. To learn more about VON and what's happening with decentralized identity in British Columbia, please go to https://vonx.io.

Contributing

Pull requests are welcome! Please read our contributions guide and submit your PRs. We enforce developer certificate of origin (DCO) commit signing. See guidance here.

We also welcome issues submitted about problems you encounter in using ACA-Py.

License

Apache License Version 2.0

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distributions

No source distribution files available for this release.See tutorial on generating distribution archives.

Built Distribution

acapy_patched_old-0.5.6-py3-none-any.whl (670.4 kB view details)

Uploaded Python 3

File details

Details for the file acapy_patched_old-0.5.6-py3-none-any.whl.

File metadata

File hashes

Hashes for acapy_patched_old-0.5.6-py3-none-any.whl
Algorithm Hash digest
SHA256 b4dbb17da6cb022542322444f66d7db414565dd747b69f6302dad624e055787c
MD5 c8bfde4988a0ce93429c625bcba9d727
BLAKE2b-256 e7df4465d48a806ea6989be818a77ee2e72d9ef571a6998b5d68aaa9f07af90b

See more details on using hashes here.

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page