zigpy-cc is a Python 3 library implemention to add support for Texas Instruments CC series of Zigbee radio module chips hardware to the zigpy project. Including but possibly not limited to Texas Instruments CC253x, CC26x2R, and CC13x2 chips flashed with a custom Z-Stack coordinator firmware.
The goal of this project is to add native support for inexpensive Texas Instruments CC chip based USB sticks in Home Assistant's built-in ZHA (Zigbee Home Automation) integration component (via the zigpy library), allowing Home Assistant with such hardware to nativly support direct control of compatible Zigbee devices such as Philips HUE, GE, Osram Lightify, Xiaomi/Aqara, IKEA Tradfri, Samsung SmartThings, and many more.
zigpy-cc allows Zigpy to interact with Texas Instruments ZNP (Zigbee Network Processor) coordinator firmware via TI Z-Stack Monitor and Test(MT) APIs using an UART/serial interface.
The zigpy-cc library itself initially began as a code port from the zigbee-herdsman project (version 0.12.24) for the Zigbee2mqtt project by Koen Kanters (a.k.a. Koenkk GitHub). The zigbee-herdsman library itself in turn was originally a fork and rewrite of the zigbee-shepherd library by the Zigbeer project. Therefore, if the upstream code improvements or bug-fixes gets commited to the zigbee-herdsman library then it could, in theory, also be possible to downport some or many of those upstream code improvements to this zigpy-cc library for its benifit.
See: Migration guide
Disclaimer: This software is provided "AS IS", without warranty of any kind. The zigpy-cc project is under development as WIP (work in progress), it is not fully working yet.
The zigpy-cc library has been tested by developers with Texas Instruments CC2531 and CC2652R based adapters/boards as reference hardware but it should in theory be possible to get it working with work most USB-adapters and GPIO-modules based on Texas Instruments CC Zigbee radio module chips hardware with Z-Stack Home 1.2.x or Z-Stack 3.x.x firmware. Note that unless you recieved your adapter pre-flashed with a compatible firmware you will also have to flash the chip a compatible Z-Stack coordinator firmware before you can use the hardware, please be sure to read the firmware requirement section further down below.
- Texas Instruments with Z-Stack Home 1.2.x firmware
- Texas Instruments based radios with Z-Stack 3.x.x firmware
Texas Instruments (TI) has quite a few different wireless MCU chips and they are all used/mentioned in open-source Zigbee world which can be daunting if you are just starting out. Here is a quick summary of part numbers and key features.
- CC2530 = 2.4GHz Zigbee and IEEE 802.15.4 wireless MCU. 8051 core, has very little RAM. Needs expensive compiler license for official TI stack.
- CC2531 = CC2530 with built-in USB. Used in the cheap "Zigbee sticks" sold everywhere.
- CC2538 = CC2538 2.4GHz Zigbee and IEEE 802.15.4 wireless MCU. CC253x with a more powerful ARM Cortex-M3 CPU core, up to 32KB of RAM, and and up to 512KB on-chip flash. This is the only chip in the CC253x series that Texas Instruments has officially released Zigbee 3.0 (Z-Stack 3.0.x) firmware, however only as an option as it is still not as powerful a the newer generation of TI chips listed bellow.
- CC2652R = 2.4GHz only wireless MCU for IEEE 802.15.4 multi-protocol (Zigbee, Bluetooth, Thread, IEEE 802.15.4g IPv6-enabled smart objects like 6LoWPAN, and proprietary systems). Cortex-M0 core for radio stack and Cortex-M4F core for application use, plenty of RAM. Free compiler option from TI.
- CC2652RB = Pin compatible "Crystal-less" CC2652R, however not firmware compatible with CC2652R.
- CC2652P = CC2652R with a built-in RF PA (Power Amplifier) for greatly improved range. Not pin or firmware compatible with CC2652R/CC2652RB.
- CC1352R = Sub 1 GHz & 2.4 GHz wireless MCU. Essentially CC2652R with an extra sub-1GHz radio.
- CC1352P = CC1352R with a built in RF PA (Power Amplifier) for greatly improved range.
- CC2591 and CC2592 = 2.4 GHz range extenders. These are not wireless MCUs, just auxillary PA (Power Amplifier) and LNA (Low Noise Amplifier) in the same package to improve RF (Radio Frequency) range of any 2.4 GHz radio chip.
Firmware requirement is that they support Texas Instruments "Z-Stack Monitor and Test" APIs using an UART interface (serial communcation protocol), which they should do if they are flashed with custom Z-Stack "coordinator" for Zigbee Home Automation 1.2 (Z-Stack Home 1.2) or Zigbee 3.0 (Z-Stack 3.0.x or Z-Stack 3.x.0) firmware from the Zigbee2mqtt project.
The necessary hardware and equipment for flashing firmware and the device preparation process is best described by the Zigbee2mqtt project whos community maintain and distribute a custom pre-compiled Z-Stack coordinator firmware (.hex files) for their Zigbee-Heardsman libary which also makes it compatible with the zigpy-cc library.
CC253x based USB adapters, modules and dev boards in general does not come with a bootloader from the factory so needs to first be hardware flashed with a pre-compiled Z-Stack coordinator firmware (.hex file) via a Texas Instruments CC Debugger or a DIY GPIO debug adapter using the official "SmartRF Flash-Programmer" (v1.1x) software from Texas Instruments, or comparative alternative metods and software. These older less powerful chips are only designed for Zigbee Home Automation 1.2 (Z-Stack Home 1.2) firmware as they are not really powerfull enough to run the newer Zigbee 3.0 (Z-Stack 3.0.x) firmware. It should be mentioned that there it is technically possible to run inofficial Zigbee 3.0 (Z-Stack 3.0.x) firmware releases for CC253x, but such newer firmware are generally not recommended on these older adapters if you want to achieve a stable Zigbee network with more than a few paired devices.
CC13x2/CC13x2x and CC26x2/CC26x2x based USB adapters, modules and dev boards in general already come with a bootloader from the factory so can be software flashed with a pre-compiled Z-Stack coordinator firmware (.hex file) directly over USB using the official "SmartRF Flash-Programmer-2" (v1.8+) or "UniFlash" (6.x) from Texas Instruments, or comparative alternative metods and software. These newer more powerful chips only support newer Zigbee 3.0 (Z-Stack 3.0.x or Z-Stack 3.x.0) firmware.
The Zigbee2mqtt project has step-by-step intructions for both flashing with Texas Instruments official software as well as several alternative metods on how to initially flash their custom Z-Stack coordinator firmware on a new CC253x, CC13x2, CC26x2 and other Texas Instruments CCxxxx based USB adapters and development boards that comes or do not come with a bootloader.
- https://www.zigbee2mqtt.io/information/supported_adapters.html
- https://www.zigbee2mqtt.io/getting_started/what_do_i_need.html
- https://www.zigbee2mqtt.io/getting_started/flashing_the_cc2531.html
- https://www.zigbee2mqtt.io/information/alternative_flashing_methods.html
Note that the Zigbee2mqtt project also have a FAQ and knowledgebase that can be useful for working with these Texas Instruments ZNP coordinator hardware adapters/equipment for their Z-Stack as well as lists Zigbee devices which should be supported.
- To configure usb port path for your TI CC serial device, just specify the TTY (serial com) port, example :
/dev/ttyACM0
- Alternatively you could try to set just port to
auto
to enable automatic usb port discovery (not garanteed to work).
- Alternatively you could try to set just port to
Developers should note that Texas Instruments recommends different baud rates for UART interface of different TI CC chips.
- CC2530 and CC2531 default recommended UART baud rate is 115200 baud.
- CC2538 also supports flexible UART baud rate generation but only up to a maximum of 460800 baud.
- CC13x2 and CC26x2 support flexible UART baud rate generation up to a maximum of 1.5 Mbps.
For toubleshooting with Home Assistant, the general recommendation is to first only enable DEBUG logging for homeassistant.core and homeassistant.components.zha in Home Assistant, then look in the home-assistant.log file and try to get the Home Assistant community to exhausted their combined troubleshooting knowledge of the ZHA component before posting issue directly to a radio library like zigpy-cc.
That is, begin with checking debug logs for Home Assistant core and the ZHA component first, (troubleshooting/debugging from the top down instead of from the bottom up), trying to getting help via Home Assistant community forum before moving on to posting debug logs to zigpy and zigpy-cc. This is to general suggestion to help filter away common problems and not flood the zigpy-cc developer(s) with to many logs.
Please also try the very latest versions of zigpy and zigpy-cc, (see the section below about "Testing new releases"), and only if you still have the same issues with the latest versions then enable debug logging for zigpy and zigpy_cc in Home Assistant in addition to core and zha. Once enabled debug logging for all those libraries in Home Assistant you should try to reproduce the problem and then raise an issue in zigpy-cc repo with a copy of those logs.
To enable debugging in Home Assistant to get debug logs, either update logger configuration section in configuration.yaml or call logger.set_default_level service with {"level": "debug"} data.
Check logger component configuration where you want something in your Home Assistant configuration.yaml like this:
logger:
default: info
logs:
asyncio: debug
homeassistant.core: debug
homeassistant.components.zha: debug
zigpy: debug
zigpy_cc: debug
Testing a new release of the zigpy-cc library before it is released in Home Assistant.
If you are using Supervised Home Assistant (formerly known as the Hassio/Hass.io distro):
- Add https://github.com/home-assistant/hassio-addons-development as "add-on" repository
- Install "Custom deps deployment" addon
- Update config like:
where 0.2.3 is the new version
pypi: - zigpy-cc==0.2.3 apk: []
- Start the addon
This version will persist even so you update HA core. You can remove custom deps with this config:
pypi: []
apk: []
If you are instead using some custom python installation of Home Assistant then do this:
- Activate your python virtual env
- Update package with
pip
pip install zigpy-cc==0.2.3
Tagged versions will also be released via PyPI
If you are looking to make a code or documentation contribution to this project we suggest that you follow the steps in these guides:
- https://github.com/firstcontributions/first-contributions/blob/master/README.md
- https://github.com/firstcontributions/first-contributions/blob/master/github-desktop-tutorial.md
zigpy is a Zigbee protocol stack integration project to implement the Zigbee Home Automation standard as a Python 3 library. Zigbee Home Automation integration with zigpy allows you to connect one of many off-the-shelf Zigbee adapters using one of the available Zigbee radio library modules compatible with zigpy to control Zigbee based devices. There is currently support for controlling Zigbee device types such as binary sensors (e.g., motion and door sensors), sensors (e.g., temperature sensors), lightbulbs, switches, and fans. A working implementation of zigbe exist in Home Assistant (Python based open source home automation software) as part of its ZHA component
ZHA deviation handling in Home Assistant relies on on the third-party ZHA Device Handlers project. Zigbee devices that deviate from or do not fully conform to the standard specifications set by the Zigbee Alliance may require the development of custom ZHA Device Handlers (ZHA custom quirks handler implementation) to for all their functions to work properly with the ZHA component in Home Assistant. These ZHA Device Handlers for Home Assistant can thus be used to parse custom messages to and from non-compliant Zigbee devices. The custom quirks implementations for zigpy implemented as ZHA Device Handlers for Home Assistant are a similar concept to that of Zigbee-Herdsman Converters / Zigbee-Shepherd Converters as used by Zigbee2mqtt as well as that of Hub-connected Device Handlers for the SmartThings Classics platform, meaning they are each virtual representations of a physical device that expose additional functionality that is not provided out-of-the-box by the existing integration between these platforms.
Home Assistant can build ZHA network topology map using the zha-map project.
zha-network-visualization-card is a custom Lovelace element for visualizing the ZHA Zigbee network in Home Assistant.
zha-network-card is a custom Lovelace card that displays ZHA network and device information in Home Assistant