commit	55ca69d0346eb6654afefb98392d5dfda53c65f9	[log] [tgz]
author	Pradip De <pradipd@google.com>	Fri Oct 10 18:25:02 2025 -0700
committer	GitHub <noreply@github.com>	Sat Oct 11 01:25:02 2025 +0000
tree	46b0f0a718a436916736e9b200d3f977c0332f7f
parent	dc1b95ec6054e6bbc869966c6dfb6084164b4b83 [diff]

Add persistence logic around allocated streams in Camera AVSM (#41090)

* Add persistence logic around allocated streams in Camera AVSM

* Add templatized Store and Load functions for allocated Video/Audio/Snapshot streams.

  -- Invoke Store functions on Add/Modify/Remove stream functions
  -- Invoke Load functions from initial Load persistent attributes call in
     Init().

* Mark the corresponding stream in HAL as allocated after loading from persisted state.

  -- Consolidate delegate APIs around loading of allocated streams.
  -- Use the PersistentAttributesLoadedCallback() API to signal the HAL to
     start corresponding loaded streams.

* Incorporate automated review comments.

* Use AttributePersistenceProvider for the stream Load/Store APIs.

* Add fault injection based test to validate Store/Load for video streams.

* Address review comments.

-Modify template function to only use the passed AttributeId to derive the
 streams vector and stream type.

* Remove unused import in Test script.

* Replace manual calculation with TLV::EstimateStructOverhead for
TLV encoded size calculation.

* Fix deleted push-back to vector during AddStream.

* Fix test scripts to perform a clean-up at the end to deallocate and
remove any persisted streams, allowing the test to be repeatable and
subsequent tests to be run without any remnant state.

* Extract the stream persistence and attribute change notification into a
private helper method.

* Add necessary import in TC_AVSM_2_15.py.

* Address review comments

19 files changed

tree: 46b0f0a718a436916736e9b200d3f977c0332f7f

README.md

Documentation links

Matter

Builds

Tests

Tools

Documentation

About

Matter (formerly Project CHIP) creates more connections between more objects, simplifying development for manufacturers and increasing compatibility for consumers, guided by the Connectivity Standards Alliance.

What is Matter?

Matter is a unified, open-source application-layer connectivity standard built to enable developers and device manufacturers to connect and build reliable, and secure ecosystems and increase compatibility among connected home devices. It is built with market-proven technologies using Internet Protocol (IP) and is compatible with Thread and Wi-Fi network transports. Matter was developed by a Working Group within the Connectivity Standards Alliance (Alliance). This Working Group develops and promotes the adoption of the Matter standard, a royalty-free connectivity standard to increase compatibility among smart home products, with security as a fundamental design tenet. The vision that led major industry players to come together to build Matter is that smart connectivity should be simple, reliable, and interoperable.

Matter simplifies development for manufacturers and increases compatibility for consumers.

The standard was built around a shared belief that smart home devices should be secure, reliable, and seamless to use. By building upon Internet Protocol (IP), Matter enables communication across smart home devices, mobile apps, and cloud services and defines a specific set of IP-based networking technologies for device certification.

The Matter specification details everything necessary to implement a Matter application and transport layer stack. It is intended to be used by implementers as a complete specification.

The Alliance officially opened the Matter Working Group on January 17, 2020, and the specification is available for adoption now.

Visit buildwithmatter.com to learn more and read the latest news and updates about the project.

Project Overview

Development Goals

Matter is developed with the following goals and principles in mind:

Unifying: Matter is built with and on top of market-tested, existing technologies.

Interoperable: The specification permits communication between any Matter-certified device, subject to users’ permission.

Secure: The specification leverages modern security practices and protocols.

User Control: The end user controls authorization for interaction with devices.

Federated: No single entity serves as a throttle or a single point of failure for root of trust.

Robust: The set of protocols specifies a complete lifecycle of a device — starting with the seamless out-of-box experience, through operational protocols, to device and system management specifications required for proper function in the presence of change.

Low Overhead: The protocols are practically implementable on low compute-resource devices, such as MCUs.

Pervasive: The protocols are broadly deployable and accessible, by leveraging IP and being implementable on low-capability devices.

Ecosystem-Flexible: The protocol is flexible enough to accommodate deployment in ecosystems with differing policies.

Easy to Use: The protocol provides smooth, cohesive, integrated provisioning and out-of-box experience.

Open: The Project’s design and technical processes are open and transparent to the general public, including non-members wherever possible.

Architecture Overview

Matter aims to build a universal IPv6-based communication protocol for smart home devices. The protocol defines the application layer that will be deployed on devices and the different link layers to help maintain interoperability. The following diagram illustrates the normal operational mode of the stack: Matter Architecture Overview

The architecture is divided into layers to help separate the different responsibilities and introduce a good level of encapsulation among the various pieces of the protocol stack. The vast majority of interactions flow through the stack captured in the following Figure:

Matter Stack Architecture

Application: High-order business logic of a device. For example, an application that is focused on lighting might contain logic to handle turning on/off the bulb as well as its color characteristics.

Data Model: The data layer corresponds to the data and verb elements that help support the functionality of the application. The Application operates on these data structures when there is an intent to interact with the device.

Interaction Model: The Interaction Model layer defines a set of interactions that can be performed between a client and server device. For example, reading or writing attributes on a server device would correspond to application behavior on the device. These interactions operate on the elements defined at the data model layer.

Action Framing: Once an action is constructed using the Interaction Model, it is serialized into a prescribed packed binary format to encode for network transmission.

Security: An encoded action frame is then sent down to the Security Layer to encrypt and sign the payload to ensure that data is secured and authenticated by both sender and receiver of a packet.
Message Framing & Routing: With an interaction encrypted and signed, the Message Layer constructs the payload format with required and optional header fields; which specify the message's properties and some routing information.

IP Framing & Transport Management: After the final payload has been constructed, it is sent to the underlying transport protocol for IP management of the data.

Current Status of Matter

Matter’s design and technical processes are intended to be open and transparent to the general public, including to Working Group non-members wherever possible. The availability of this GitHub repository and its source code under an Apache v2 license is an important and demonstrable step to achieving this commitment. Matter endeavors to bring together the best aspects of market-tested technologies and redeploy them as a unified and cohesive whole-system solution. The overall goal of this approach is to bring the benefits of Matter to consumers and manufacturers as quickly as possible. As a result, what you observe in this repository is an implementation-first approach to the technical specification, vetting integrations in practice. The Matter repository is growing and evolving to implement the overall architecture. The repository currently contains the security foundations, message framing and dispatch, and an implementation of the interaction model and data model. The code examples show simple interactions, and are supported on multiple transports -- Wi-Fi and Thread -- starting with resource-constrained (i.e., memory, processing) silicon platforms to help ensure Matter’s scalability.

How to Contribute

We welcome your contributions to Matter. Read our contribution guidelines here.

Building and Developing in Matter

Instructions about how to build Matter can be found here .

Directory Structure

The Matter repository is structured as follows:

File/Folder	Content
build	Build system support content and built output directories
build_overrides	Build system parameter customization for different platforms
config	Project configurations
credentials	Development and test credentials
docs	Documentation, including guides. Visit the Matter SDK documentation page to read it.
examples	Example firmware applications that demonstrate use of Matter
integrations	3rd party integrations
scripts	Scripts needed to work with the Matter repository
src	Implementation of Matter
third_party	3rd party code used by Matter
zzz_generated	ZAP generated template code - Revolving around cluster information
BUILD.gn	Build file for the GN build system
CODE_OF_CONDUCT.md	Code of conduct for Matter and contribution to it
CONTRIBUTING.md	Guidelines for contributing to Matter
LICENSE	Matter license file
REVIEWERS.md	PR reviewers
gn_build.sh	Build script for specific projects such as Android, EFR32, etc.
README.md	This file

License

Matter is released under the Apache 2.0 license.