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Overview

This project aims to provide a ZigBee Framework written in Java. It provides a ZigBee Cluster Library implementation, and network management functions, aiming to provide a full featured ZigBee framework that can be implemented within end systems.

Packages are broken down to provide the main ZigBee framework, separate packages for dongles, and a console application that allows full use of the framework. The bundles include OSGi headers for use within an OSGi framework.

Minimum Android support is currently API19, Android 4.4 (KitKat). It is highly recommended to move to Android 8 as this may become the minimum requirement in the future to allow the framework to use the newer classes available from API26.

Features

Features include -:

  • ZigBee Cluster Library
  • Over-The-Air firmware upgrade

Packages

The framework implements a package structure that allows efficient use of re-usable components in a number of different applications.

Package Description
com.zsmartsystems.zigbee The main framework and cluster library implementation
com.zsmartsystems.zigbee.autocode Code generator for the ZigBee cluster library classes
com.zsmartsystems.zigbee.dongle.cc2531 Dongle driver for the Texas Instruments ZNP CC2531
com.zsmartsystems.zigbee.dongle.conbee Dongle driver for the Dresden Electronics Conbee
com.zsmartsystems.zigbee.dongle.ember Dongle driver for the Silabs EZSP Network Co-Processor
com.zsmartsystems.zigbee.dongle.ember.autocode Code generator for the Ember NCP dongle commands
com.zsmartsystems.zigbee.dongle.telegesis Dongle driver for the Telegesis dongle
com.zsmartsystems.zigbee.dongle.telegesis.autocode Code generator for the Telegesis dongle commands
com.zsmartsystems.zigbee.dongle.xbee Dongle driver for the Digi XBee dongle
com.zsmartsystems.zigbee.dongle.xbee.autocode Code generator for the XBee dongle commands
com.zsmartsystems.zigbee.console Console commands for the general framework
com.zsmartsystems.zigbee.console.ember Console commands for the Silabs Ember NCP
com.zsmartsystems.zigbee.console.main Main CLI console application
com.zsmartsystems.zigbee.serial Serial driver implementation
com.zsmartsystems.zigbee.test Overall tests and code coverage

Testing

The framework incorporates a lot of unit testing, ensuring real data received from devices can be correctly decoded. When an error is detected following operation with real devices, a test case is normally added to reproduce the error and then it is fixed.

Logging

A log viewer to decode the logs and present them in a usable format is available here. This provides filtering of data at different levels and filtering by node address.

ZigBee Stack

Dongles

Silicon Labs Ember EM35x / EFR32

The library supports the Silicon Labs EZSP protocol using ASH or SPI protocols over a serial interface. The implementation of the SPI protocol assumes that the SPI provides a TTY-like software interface to the application, or is otherwise abstracted via the ZigBeePort interface.

It is worth noting that EM3588 devices that have an embedded USB core will likely work with any baud rate, where dongles using external USB interface (eg CP2102 used with an EM3581) will likely require a specific baud rate.

Currently there are two main NCP images - one that supports hardware flow control with a baud rate of 115200, and one that supports software flow control with a rate of 57600.

Ember NCP configuration

The library provide a standard set of configuration constants to configure the NCP for use as a coordinator. There are two methods available in the Ember driver to manipulate the configuration maps updateDefaultConfiguration and updateDefaultPolicy. The configuration is sent to the NCP during the initialisation sequence which is performed when calling the ZigBeeNetworkManager.initialize() method, so any changes to configuration must be performed prior to this.

The Ember dongle driver includes a public method getEmberNcp() which returns a EmberNcp class. This class provides high level methods for interacting directly with the NCP.

Ember MfgLib use

The library provides access to the mfglib functions in the NCP to facilitate device testing. To use this function, create the ZigBeeDongleEzsp and then call the getEmberMfglib(EmberMfglibListener) method to get the EmberMfglib class and also set the callback listener. The EmberMfglib class provides access to the mfglib functions.

Note that this can only be used if the dongle is not configured for use in the network (ie initialize has not been called).

The com.zsmartsystems.zigbee.sniffer project is an example of the use of these features to provide a network sniffer to route frames to Wireshark.

Texas Instruments CC2531

The library supports the Texas Instruments ZNP protocol over a serial interface.

Telegesis ETRX3

The library supports the Telegesis AT protocol over a serial interface. Currently implemented against R309C. Note that some dongles such as the Qivicon Funkstick may use PID/VID codes that require special drivers or they will not be detected as a serial port.

Under Linux you can add the Qivicon dongle without a custom made kernel with the following command -:

echo 10c4 89fb > /sys/bus/usb-serial/drivers/cp210x/new_id

ConBee / RaspBee

The library supports the Dresden Electronics RaspBee and ConBee dongles. Note that this requires some further work.

XBee

The XBee S2C XStick is supported.

Tested Hardware

The framework has been tested against many different devices - many lights, motion sensors, temperature/humidity/light sensors, plug sockets...

ZigBee Dongles and Chipsets

The following table provides a summary of some of the dongles / chipsets that are available on the market and their support within the library. Receive sensitivity and transmit power are the main parameters affecting RF performance - it should be noted that regulations may reduce transmit power in some areas of the world and other factors can also impact performance.

Model Support Receive Transmit Antenna
Xbee XU-Z11 Yes -90dBm +4.5dBm Internal
EM358 Yes (EZSP) -100dBm +8.0dBm Internal
EFR32 Yes (EZSP)
EM358LR Yes (EZSP) -103dBm +20.0dBm Internal
MGM111 Yes (EZSP) -99dBm +10.0dBm Internal
RaspBee Yes (CONBEE) -105dBm +8.7dBm Internal
ConBee Yes (CONBEE) -105dBm +8.7dBm Internal
CC2530 Yes (ZNP) -97dBm +4.5dBm
CC2531 Yes (ZNP) -97dBm +4.5dBm
CC2538 Yes (ZNP) -97dBm +7.0dBm
CC2650 Yes (ZNP) -100dBm +5.0dBm
ATSAMR21 No -99dBm +4.0dBm
JN5169 No -96dBm +10.0dBm
HUSBZB-1 Yes (EZSP) Internal
Telegesis ETRX3 Yes (Telegesis) Internal
Qivicon Funkstick Yes (Telegesis) Internal
  • Receive: Defines the typical receive performance. A lower number is best.
  • Transmit: Defines the maximum output power. A higher number is best.

Application Extensions

The framework includes optional functional applications to support higher layer functionality. Extensions implement the ZigBeeNetworkExtension interface and are registered with the network manager with the ZigBeeNetworkManager.addExtension() method. Extensions provide the top level network manager functionality and are normally augmented with lower level client/server functions associated with specific clusters. These client/server applications implement the ZigBeeApplication interface and are registered with the endpoint with the ZigBeeEndpoint.addApplication() method.

Currently implemented extensions include -:

  • Discovery Extension (ZigBeeDiscoveryExtension)
  • Network Mesh Monitor Extension (ZigBeeDiscoveryExtension)
  • IAS CIE client (ZigBeeIasCieExtension)
  • OTA Upgrade Server (ZigBeeOtaUpgradeExtension)

These provide basic functionality and can be extended as required to meet the application needs.

Overview

Extensions may provide different levels of functionality - an extension may be as simple as configuring the framework to work with a specific feature, or could provide a detailed application.

An example of a simple extension is the ZigBeeOtaUpgradeExtension which simply listens for new devices on the network, and adds the ZclOtaUpgradeServer to the endpoint.

A more complex extension could for example handle the CIE IAS zones, providing a cross device implementation to coordinate the allocation of zones and handling of alarms.

The lifecycle of an extension is as follows -:

  • extensionInitialize is called when the extension is first registered
  • extensionStartup is called when the network is online and the extension may run operationally.
  • extensionShutdown is called when the extension is closed. The framework will do this when it is shutting down.

Extensions should normally register as a ZigBeeNetworkNodeListener to get notified when a node is discovered or removed from the network so that they can add support to the node. The extension will then register a client or server application with the endpoint. The client/server application may register for callbacks with the endpoint (or node).

Extension may want to register a supported cluster with the ZigBeeNetworkManager.addSupportedCluster() method so that the services provided are discoverable.

Client/Server implementations will normally be linked to a specific cluster and provide the application logic for the cluster. The client/server implementation class should be named with the same name as the cluster, but exchanging Cluster for Client or Server (eg a server supporting the ZclOtaUpgradeCluster would be named ZclOtaUpgradeServer).

Console Application

A console application is provided as part of the package. This application allows full use and testing of the framework. It can be used to test any new functionality without the added complexity of application level integration, or may be used as a stand-alone ZigBee configuration tool.

All commands implement the ZigBeeConsoleCommand interface, providing an easily extendible command system.

The command handlers used in the console application are in the package com.zsmartsystems.zigbee.console. This is separate from the main console application, and this allows the command handlers to be incorporated into other frameworks.

Command handlers for commands specific to each dongle implementation are in the package com.zsmartsystems.zigbee.console.abc (where abc is the name of the dongle). These commands allow access to non standard API relating solely to each dongle.

Command handlers take a set of arguments as provided by the user and will throw IllegalArgumentException if there are any errors with arguments, or IllegalStateException if there are any issues with the network state that prevent the command execution.

Starting the Console

The console application takes the following parameters -:

Option Description
-?,--help Print usage information
-a,--pan Set the ZigBee PAN ID
-b,--baud Set the port baud rate
-c,--channel Set the ZigBee channel ID
-d,--dongle Set the dongle type to use (EMBER
-e,--epan Set the ZigBee EPAN ID
-f,--flow Set the flow control (NONE
-l,--linkkey Set the ZigBee Link key (defaults to well known ZHA key)
-n,--nwkkey Set the ZigBee Network key (defaults to randon value)
-o,--nwkkeyoutcnt Set the ZigBee Network key outgoing frame counter
-p,--port Set the port
-t,--linkkeyoutcnt Set the ZigBee Link key outgoing frame counter
-r,--reset Reset the ZigBee dongle

The -dongle and -port options are always required. Most dongles will also require -baud, and may require -flow, although this may be hard coded for dongles that do not have this option.

If -reset is used, you should normally also set the -channel, -pan, -epan and -nwkkey options. If not set, defaults will be used to allow the system to start, however these may be random and may not allow you to use a network sniffer or other tools where some of this information may be required. The -linkkey may also be set, but will default to the well known ZHA ZigBeeAlliance09 key if not set.

Decimal configuration values such as pan may be specified in decimal, or hexadecimal by prepending 0x to the value (eg 0x2000).

Example -:

-dongle EMBER -port /dev/tty.usbserial-FTD6C0AF -baud 115200 -flow software -channel 11 -pan 0x2000 -epan 987654321 -nwkkey AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA -reset

Console Commands

General Commands

Note that the console is currently being refactored and this readme only documents the commands that have been migrated. For a full list of commands, use the help command in the console.

Command Description
join Enable or disable network join
leave Remove a node from the network
nodelist Lists the known nodes in the network
node Provides detailed information about a node
endpoint Provides detailed information about an endpoint
info Get basic info about a device
read Read an attribute
write Write an attribute
bind Binds a device to another device
unbind Unbinds a device from another device
bindtable Reads and displays the binding table from a node
attsupported Check what attributes are supported within a cluster
subscribe Subscribe to attribute reports
unsubscribe Unsubscribe from attribute reports
reportcfg Read the reporting configuration of an attribute
otaupgrade Provides information about device Over The Air upgrade server status
installkey Adds an install key to the dongle
linkkey Sets the link key int the dongle, optionally computing the MMO Hash from the join code
netstart Join or Form a network as a router or coordinator
netbackup Backup or restores the state of the dongle

Ember NCP Commands

The following commands are available if the transport layer is using the Silabs Ember NCP.

Command Description
ncpchildren Gets the NCP child information
ncpconfig Read or write an NCP configuration value
ncpcounters Gets the NCP debug counters
ncpstate Gets the NCP network state and optionally brings the network up or down
ncpvalue Read or write an NCP memory value
ncpversion Gets the NCP firmware version
ncpsecuritystate Gets the current NCP security state and configuration
ncptransientkey Adds a transient link key to the NCP
ncpmmohash Uses the NCP to perform the MMO hash

Telegesis Commands

The following commands are available if the transport layer is using the Telegesis dongle.

Command Description
ncpsecuritystate Gets the current NCP security state and configuration

Contributing

  • Code style should use standard naming conventions
  • Codacy static testing should pass.
  • Run the findBugs goal and check that you have not introduced any bugs into your code. FindBugs reports are generated with the mvn site goal, and reports are located in the target/site/findbugs.html file.
  • Please consider raising issues before working on an enhancement to provide some coordination with other contributors.
  • Keep PRs short - try and keep a single PR per enhancement. This makes tracking and reviewing easier.
  • Contributions must be supported with tests.
  • Code must be formatted using the Eclipse code formatter provided in the project.
  • Contributions must be your own and you must agree with the license.
  • You must sign the PR and commits and must agree to the Contributor License Agreement.

Maven

The repositories below may be used for the RELEASE and SNAPSHOT versions respectively -:

<repository>
    <id>bintray-zsmartsystems-com.zsmartsystems</id>
    <name>zsmartsystems-com.zsmartsystems</name>
    <url>https://api.bintray.com/maven/zsmartsystems/com.zsmartsystems/zigbee/;publish=1</url>
</repository>
<snapshotRepository>
    <id>snapshots-zsmartsystems-com.zsmartsystems</id>
    <name>zsmartsystems-com.zsmartsystems</name>
    <url>https://oss.jfrog.org/artifactory/oss-snapshot-local/</url>
</snapshotRepository>
<dependency>
    <groupId>com.zsmartsystems.zigbee</groupId>
    <artifactId>com.zsmartsystems.zigbee</artifactId>
    <version>1.1.5</version>
    <type>pom</type>
</dependency>

Maven Goals

  • To build: mvn clean install
  • To prepeare a new release: mvn release:prepare
  • To perform a new release: mvn release:perform
  • To bump the version: mvn release:update-versions
  • To format the license header: mvn license:format
  • To produce the findbugs (etc) reports: mvn site

Gradle

gradlew clean build

Gradle build dependencies:

dependencies
{
    compile 'ccom.zsmartsystems.zigbee:com.zsmartsystems.zigbee:1.x.x'
}

License

The code is licensed under Eclipse Public License. Refer to the license file for further information.

Some parts of this code are from zigbee4java which in turn is derived from ZB4O projects which are licensed under the Apache-2 license. These are being refactored out to ensure the contributions to this reportisory are understood.

ZigBee Documentation

Some documentation used to create parts of this framework is copyright © ZigBee Alliance, Inc. All rights Reserved. The following copyright notice is copied from the ZigBee documentation.

Elements of ZigBee Alliance specifications may be subject to third party intellectual property rights, including without limitation, patent, copyright or trademark rights (such a third party may or may not be a member of ZigBee). ZigBee is not responsible and shall not be held responsible in any manner for identifying or failing to identify any or all such third party intellectual property rights.

No right to use any ZigBee name, logo or trademark is conferred herein. Use of any ZigBee name, logo or trademark requires membership in the ZigBee Alliance and compliance with the ZigBee Logo and Trademark Policy and related ZigBee policies.

This document and the information contained herein are provided on an “AS IS” basis and ZigBee DISCLAIMS ALL WARRANTIES EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO (A) ANY WARRANTY THAT THE USE OF THE INFORMATION HEREIN WILL NOT INFRINGE ANY RIGHTS OF THIRD PARTIES (INCLUDING WITHOUT LIMITATION ANY INTELLECTUAL PROPERTY RIGHTS INCLUDING PATENT, COPYRIGHT OR TRADEMARK RIGHTS) OR (B) ANY IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, TITLE OR NONINFRINGEMENT. IN NO EVENT WILL ZIGBEE BE LIABLE FOR ANY LOSS OF PROFITS, LOSS OF BUSINESS, LOSS OF USE OF DATA, INTERRUPTION OF BUSINESS, OR FOR ANY OTHER DIRECT, INDIRECT, SPECIAL OR EXEMPLARY, INCIDENTIAL, PUNITIVE OR CONSEQUENTIAL DAMAGES OF ANY KIND, IN CONTRACT OR IN TORT, IN CONNECTION WITH THIS DOCUMENT OR THE INFORMATION CONTAINED HEREIN, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH LOSS OR DAMAGE.

All Company, brand and product names may be trademarks that are the sole property of their respective owners.

Dongle Documentation

Some documentation used to implement dongle drivers is copywrite to the respective holders, including Silicon Labs, Texas Instruments, Dresden Electronics, Digi International.

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