adafruit-mirror/arduino-esp32
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity

Created Zigbee Endpoint for Window Covering. (#10914)

Browse source 
* feat(zigbee): Added Endpoint for Window Covering (#10913)

* Added example Sketch.

* Added window covering to CMakeLists.txt.

* feat(zigbee): Window covering tilt support and fixes

* fix(zigbee): Fix typos

* ci(pre-commit): Apply automatic fixes

* fix(ci): Fixes of typos

---------

Co-authored-by: Jan Procházka <90197375+P-R-O-C-H-Y@users.noreply.github.com>
Co-authored-by: pre-commit-ci-lite[bot] <117423508+pre-commit-ci-lite[bot]@users.noreply.github.com>
This commit is contained in:
Henning Kulander 2025-02-04 16:52:02 +01:00 committed by GitHub
parent 6a1127625c
commit db0bbad934
No known key found for this signature in database
GPG key ID: B5690EEEBB952194
9 changed files with 757 additions and 1 deletions
Show stats Download patch file Download diff file Expand all files Collapse all files

1
CMakeLists.txt
View file

@ -292,6 +292,7 @@ set(ARDUINO_LIBRARY_Zigbee_SRCS
libraries/Zigbee/src/ep/ZigbeeCarbonDioxideSensor.cpp
libraries/Zigbee/src/ep/ZigbeeContactSwitch.cpp
libraries/Zigbee/src/ep/ZigbeeDoorWindowHandle.cpp
libraries/Zigbee/src/ep/ZigbeeWindowCovering.cpp
)
set(ARDUINO_LIBRARY_BLE_SRCS

69
libraries/Zigbee/examples/Zigbee_Window_Covering/README.md Normal file
View file

@ -0,0 +1,69 @@
# Arduino-ESP32 Window Covering Example
This example shows how to configure the Zigbee end device and use it as a Home Automation (HA) window covering device.
To see if the communication with your Zigbee network works, use the Serial monitor and watch for output there.
# Supported Targets
Currently, this example supports the following targets.
| Supported Targets | ESP32-C6 | ESP32-H2 |
| ----------------- | -------- | -------- |
## Hardware Required
* A USB cable for power supply and programming
* Board (ESP32-H2 or ESP32-C6) as Zigbee end device and upload the Zigbee_Window_Covering example
* Zigbee network / coordinator (Other board with switch examples or Zigbee2mqtt or ZigbeeHomeAssistant like application)
### Configure the Project
#### Using Arduino IDE
To get more information about the Espressif boards see [Espressif Development Kits](https://www.espressif.com/en/products/devkits).
* Before Compile/Verify, select the correct board: `Tools -> Board`.
* Select the End device Zigbee mode: `Tools -> Zigbee mode: Zigbee ED (end device)`
* Select Tools / USB CDC On Boot: "Enabled"
* Select Partition Scheme for Zigbee: `Tools -> Partition Scheme: Zigbee 4MB with spiffs`
* Select the COM port: `Tools -> Port: xxx` where the `xxx` is the detected COM port.
* Optional: Set debug level to verbose to see all logs from Zigbee stack: `Tools -> Core Debug Level: Verbose`.
## Troubleshooting
If the End device flashed with this example is not connecting to the coordinator, erase the flash of the End device before flashing the example to the board. It is recommended to do this if you re-flash the coordinator.
You can do the following:
* In the Arduino IDE go to the Tools menu and set `Erase All Flash Before Sketch Upload` to `Enabled`.
* Add to the sketch `Zigbee.factoryReset();` to reset the device and Zigbee stack.
By default, the coordinator network is closed after rebooting or flashing new firmware.
To open the network you have 2 options:
* Open network after reboot by setting `Zigbee.setRebootOpenNetwork(time);` before calling `Zigbee.begin();`.
* In application you can anytime call `Zigbee.openNetwork(time);` to open the network for devices to join.
***Important: Make sure you are using a good quality USB cable and that you have a reliable power source***
* **LED not blinking:** Check the wiring connection and the IO selection.
* **Programming Fail:** If the programming/flash procedure fails, try reducing the serial connection speed.
* **COM port not detected:** Check the USB cable and the USB to Serial driver installation.
If the error persists, you can ask for help at the official [ESP32 forum](https://esp32.com) or see [Contribute](#contribute).
## Contribute
To know how to contribute to this project, see [How to contribute.](https://github.com/espressif/arduino-esp32/blob/master/CONTRIBUTING.rst)
If you have any **feedback** or **issue** to report on this example/library, please open an issue or fix it by creating a new PR. Contributions are more than welcome!
Before creating a new issue, be sure to try Troubleshooting and check if the same issue was already created by someone else.
## Resources
* Official ESP32 Forum: [Link](https://esp32.com)
* Arduino-ESP32 Official Repository: [espressif/arduino-esp32](https://github.com/espressif/arduino-esp32)
* ESP32-C6 Datasheet: [Link to datasheet](https://www.espressif.com/sites/default/files/documentation/esp32-c6_datasheet_en.pdf)
* ESP32-H2 Datasheet: [Link to datasheet](https://www.espressif.com/sites/default/files/documentation/esp32-h2_datasheet_en.pdf)
* Official ESP-IDF documentation: [ESP-IDF](https://idf.espressif.com)

198
libraries/Zigbee/examples/Zigbee_Window_Covering/Zigbee_Window_Covering.ino Normal file
View file

@ -0,0 +1,198 @@
// Copyright 2025 Espressif Systems (Shanghai) PTE LTD
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
/**
* @brief This example demonstrates Zigbee Window Covering.
*
* The example demonstrates how to use Zigbee library to create a end device window covering device.
* The window covering is a Zigbee end device, which is moving the blinds (lift+tilt) and reporting
* its current position to the Zigbee network.
*
* Use setCoveringType() to set the type of covering (blind, shade, etc.).
*
* The example also demonstrates how to use the button to manually control the lift position.
*
* Proper Zigbee mode must be selected in Tools->Zigbee mode
* and also the correct partition scheme must be selected in Tools->Partition Scheme.
*
* Please check the README.md for instructions and more detailed description.
*
* Created by hennikul and Jan Procházka (https://github.com/P-R-O-C-H-Y/)
*/
#ifndef ZIGBEE_MODE_ED
#error "Zigbee end device mode is not selected in Tools->Zigbee mode"
#endif
#include "ZigbeeCore.h"
#include "ep/ZigbeeWindowCovering.h"
#define ZIGBEE_COVERING_ENDPOINT 10
#define BUTTON_PIN 9 // ESP32-C6/H2 Boot button
#define MAX_LIFT 200 // centimeters from open position (0-900)
#define MIN_LIFT 0
#define MAX_TILT 40 // centimeters from open position (0-900)
#define MIN_TILT 0
uint16_t currentLift = MAX_LIFT;
uint8_t currentLiftPercentage = 100;
uint16_t currentTilt = MAX_TILT;
uint8_t currentTiltPercentage = 100;
ZigbeeWindowCovering zbCovering = ZigbeeWindowCovering(ZIGBEE_COVERING_ENDPOINT);
void setup() {
Serial.begin(115200);
// Init button for factory reset
pinMode(BUTTON_PIN, INPUT_PULLUP);
// Optional: set Zigbee device name and model
zbCovering.setManufacturerAndModel("Espressif", "WindowBlinds");
// Set proper covering type, it defines which attributes are available
zbCovering.setCoveringType(BLIND_LIFT_AND_TILT);
// Set configuration: operational, online, not commands_reversed, lift / tilt closed_loop, lift / tilt encoder_controlled
zbCovering.setConfigStatus(true, true, false, true, true, true, true);
// Set mode: not motor_reversed, calibration_mode, not maintenance_mode, not leds_on
zbCovering.setMode(false, true, false, false);
// Set limits of motion
zbCovering.setLimits(MIN_LIFT, MAX_LIFT, MIN_TILT, MAX_TILT);
// Set callback function for open, close, filt and tilt change, stop
zbCovering.onOpen(fullOpen);
zbCovering.onClose(fullClose);
zbCovering.onGoToLiftPercentage(goToLiftPercentage);
zbCovering.onGoToTiltPercentage(goToTiltPercentage);
zbCovering.onStop(stopMotor);
// Add endpoint to Zigbee Core
Serial.println("Adding ZigbeeWindowCovering endpoint to Zigbee Core");
Zigbee.addEndpoint(&zbCovering);
// When all EPs are registered, start Zigbee. By default acts as ZIGBEE_END_DEVICE
Serial.println("Calling Zigbee.begin()");
if (!Zigbee.begin()) {
Serial.println("Zigbee failed to start!");
Serial.println("Rebooting...");
ESP.restart();
}
Serial.println("Connecting to network");
while (!Zigbee.connected()) {
Serial.print(".");
delay(100);
}
Serial.println();
// Set initial position
zbCovering.setLiftPercentage(currentLiftPercentage);
zbCovering.setTiltPercentage(currentTiltPercentage);
}
void loop() {
// Checking button for factory reset
if (digitalRead(BUTTON_PIN) == LOW) { // Push button pressed
// Key debounce handling
delay(100);
int startTime = millis();
while (digitalRead(BUTTON_PIN) == LOW) {
delay(50);
if ((millis() - startTime) > 3000) {
// If key pressed for more than 3secs, factory reset Zigbee and reboot
Serial.printf("Resetting Zigbee to factory settings, reboot.\n");
Zigbee.factoryReset();
delay(30000);
}
}
// Manual lift control simulation by pressing button
manualControl();
}
delay(500);
}
void fullOpen() {
/* This is where you would trigger your motor to go to full open state, currentLift should
be updated until full open has been reached in order to provide feedback to controller of actual position
The stop can be always called, so the movement can be stopped at any time */
// Our cover updates instantly!
currentLift = MAX_LIFT;
currentLiftPercentage = 100;
Serial.println("Opening cover");
// Update the current position
zbCovering.setLiftPercentage(currentLiftPercentage);
}
void fullClose() {
/* This is where you would trigger your motor to go to full close state, currentLift should
be updated until full close has been reached in order to provide feedback to controller of actual position
The stop can be always called, so the movement can be stopped at any time */
// Our cover updates instantly!
currentLift = MIN_LIFT;
currentLiftPercentage = 0;
Serial.println("Closing cover");
// Update the current position
zbCovering.setLiftPercentage(currentLiftPercentage);
}
void goToLiftPercentage(uint8_t liftPercentage) {
/* This is where you would trigger your motor to go towards liftPercentage, currentLift should
be updated until liftPercentage has been reached in order to provide feedback to controller */
// Our simulated cover updates instantly!
currentLift = (liftPercentage * MAX_LIFT) / 100;
currentLiftPercentage = liftPercentage;
Serial.printf("New requested lift from Zigbee: %d (%d)\n", currentLift, liftPercentage);
// Update the current position
zbCovering.setLiftPercentage(currentLiftPercentage); //or setLiftPosition()
}
void goToTiltPercentage(uint8_t tiltPercentage) {
/* This is where you would trigger your motor to go towards tiltPercentage, currentTilt should
be updated until tiltPercentage has been reached in order to provide feedback to controller */
// Our simulated cover updates instantly!
currentTilt = (tiltPercentage * MAX_TILT) / 100;
currentTiltPercentage = tiltPercentage;
Serial.printf("New requested tilt from Zigbee: %d (%d)\n", currentTilt, tiltPercentage);
// Update the current position
zbCovering.setTiltPercentage(currentTiltPercentage); //or setTiltPosition()
}
void stopMotor() {
// Motor can be stopped while moving cover toward current target, when stopped the actual position should be updated
Serial.println("Stopping motor");
// Update the current position of both lift and tilt
zbCovering.setLiftPercentage(currentLiftPercentage);
zbCovering.setTiltPercentage(currentTiltPercentage);
}
void manualControl() {
// Simulate lift percentage move by increasing it by 20% each time
currentLiftPercentage += 20;
if (currentLiftPercentage > 100) {
currentLiftPercentage = 0;
}
zbCovering.setLiftPercentage(currentLiftPercentage);
// Also setLiftPosition() can be used to set the exact position instead of percentage
}

6
libraries/Zigbee/examples/Zigbee_Window_Covering/ci.json Normal file
View file

@ -0,0 +1,6 @@
{
"fqbn_append": "PartitionScheme=zigbee,ZigbeeMode=ed",
"requires": [
"CONFIG_SOC_IEEE802154_SUPPORTED=y"
]
}

1
libraries/Zigbee/src/Zigbee.h
View file

@ -20,3 +20,4 @@
#include "ep/ZigbeeCarbonDioxideSensor.h"
#include "ep/ZigbeeContactSwitch.h"
#include "ep/ZigbeeDoorWindowHandle.h"
#include "ep/ZigbeeWindowCovering.h"

2
libraries/Zigbee/src/ZigbeeEP.h
View file

@ -115,8 +115,8 @@ public:
virtual void zbAttributeRead(uint16_t cluster_id, const esp_zb_zcl_attribute_t *attribute) {};
virtual void zbReadBasicCluster(const esp_zb_zcl_attribute_t *attribute); //already implemented
virtual void zbIdentify(const esp_zb_zcl_set_attr_value_message_t *message);
virtual void zbWindowCoveringMovementCmd(const esp_zb_zcl_window_covering_movement_message_t *message) {};
virtual void zbReadTimeCluster(const esp_zb_zcl_attribute_t *attribute); //already implemented
virtual void zbIASZoneStatusChangeNotification(const esp_zb_zcl_ias_zone_status_change_notification_message_t *message) {};
virtual void zbIASZoneEnrollResponse(const esp_zb_zcl_ias_zone_enroll_response_message_t *message) {};

26
libraries/Zigbee/src/ZigbeeHandlers.cpp
View file

@ -12,6 +12,7 @@ static esp_err_t zb_configure_report_resp_handler(const esp_zb_zcl_cmd_config_re
static esp_err_t zb_cmd_ias_zone_status_change_handler(const esp_zb_zcl_ias_zone_status_change_notification_message_t *message);
static esp_err_t zb_cmd_ias_zone_enroll_response_handler(const esp_zb_zcl_ias_zone_enroll_response_message_t *message);
static esp_err_t zb_cmd_default_resp_handler(const esp_zb_zcl_cmd_default_resp_message_t *message);
static esp_err_t zb_window_covering_movement_resp_handler(const esp_zb_zcl_window_covering_movement_message_t *message);
// Zigbee action handlers
[[maybe_unused]]
@ -28,6 +29,9 @@ static esp_err_t zb_action_handler(esp_zb_core_action_callback_id_t callback_id,
case ESP_ZB_CORE_IAS_ZONE_ENROLL_RESPONSE_VALUE_CB_ID:
ret = zb_cmd_ias_zone_enroll_response_handler((esp_zb_zcl_ias_zone_enroll_response_message_t *)message);
break;
case ESP_ZB_CORE_WINDOW_COVERING_MOVEMENT_CB_ID:
ret = zb_window_covering_movement_resp_handler((esp_zb_zcl_window_covering_movement_message_t *)message);
break;
case ESP_ZB_CORE_CMD_DEFAULT_RESP_CB_ID: ret = zb_cmd_default_resp_handler((esp_zb_zcl_cmd_default_resp_message_t *)message); break;
default: log_w("Receive unhandled Zigbee action(0x%x) callback", callback_id); break;
}
@ -198,4 +202,26 @@ static esp_err_t zb_cmd_default_resp_handler(const esp_zb_zcl_cmd_default_resp_m
return ESP_OK;
}
static esp_err_t zb_window_covering_movement_resp_handler(const esp_zb_zcl_window_covering_movement_message_t *message) {
if (!message) {
log_e("Empty message");
}
if (message->info.status != ESP_ZB_ZCL_STATUS_SUCCESS) {
log_e("Received message: error status(%d)", message->info.status);
}
log_v(
"Received message: endpoint(%d), cluster(0x%x), command(0x%x), payload(%d)", message->info.dst_endpoint, message->info.cluster, message->command,
message->payload
);
// List through all Zigbee EPs and call the callback function, with the message
for (std::list<ZigbeeEP *>::iterator it = Zigbee.ep_objects.begin(); it != Zigbee.ep_objects.end(); ++it) {
if (message->info.dst_endpoint == (*it)->getEndpoint()) {
(*it)->zbWindowCoveringMovementCmd(message); //method zbWindowCoveringMovementCmd must be implemented in specific EP class
}
}
return ESP_OK;
}
#endif //SOC_IEEE802154_SUPPORTED && CONFIG_ZB_ENABLED

308
libraries/Zigbee/src/ep/ZigbeeWindowCovering.cpp Normal file
View file

@ -0,0 +1,308 @@
#include "ZigbeeWindowCovering.h"
#if SOC_IEEE802154_SUPPORTED && CONFIG_ZB_ENABLED
esp_zb_cluster_list_t *ZigbeeWindowCovering::zigbee_window_covering_clusters_create(zigbee_window_covering_cfg_t *window_covering_cfg) {
esp_zb_attribute_list_t *esp_zb_basic_cluster = esp_zb_basic_cluster_create(&window_covering_cfg->basic_cfg);
esp_zb_attribute_list_t *esp_zb_identify_cluster = esp_zb_identify_cluster_create(&window_covering_cfg->identify_cfg);
esp_zb_attribute_list_t *esp_zb_groups_cluster = esp_zb_groups_cluster_create(&window_covering_cfg->groups_cfg);
esp_zb_attribute_list_t *esp_zb_scenes_cluster = esp_zb_scenes_cluster_create(&window_covering_cfg->scenes_cfg);
esp_zb_attribute_list_t *esp_zb_window_covering_cluster = esp_zb_window_covering_cluster_create(&window_covering_cfg->window_covering_cfg);
esp_zb_window_covering_cluster_add_attr(
esp_zb_window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CURRENT_POSITION_LIFT_PERCENTAGE_ID, &_current_lift_percentage
);
esp_zb_window_covering_cluster_add_attr(
esp_zb_window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CURRENT_POSITION_TILT_PERCENTAGE_ID, &_current_tilt_percentage
);
esp_zb_window_covering_cluster_add_attr(esp_zb_window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CURRENT_POSITION_LIFT_ID, &_current_lift_position);
esp_zb_window_covering_cluster_add_attr(esp_zb_window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CURRENT_POSITION_TILT_ID, &_current_lift_position);
esp_zb_window_covering_cluster_add_attr(
esp_zb_window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_INSTALLED_OPEN_LIMIT_LIFT_ID, &_installed_open_limit_lift
);
esp_zb_window_covering_cluster_add_attr(
esp_zb_window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_INSTALLED_OPEN_LIMIT_TILT_ID, &_installed_open_limit_tilt
);
esp_zb_window_covering_cluster_add_attr(
esp_zb_window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_INSTALLED_CLOSED_LIMIT_LIFT_ID, &_installed_closed_limit_lift
);
esp_zb_window_covering_cluster_add_attr(
esp_zb_window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_INSTALLED_CLOSED_LIMIT_TILT_ID, &_installed_closed_limit_tilt
);
esp_zb_window_covering_cluster_add_attr(
esp_zb_window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_PHYSICAL_CLOSED_LIMIT_LIFT_ID, &_physical_closed_limit_lift
);
esp_zb_window_covering_cluster_add_attr(
esp_zb_window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_PHY_CLOSED_LIMIT_TILT_ID, &_physical_closed_limit_lift
);
// ------------------------------ Create cluster list ------------------------------
esp_zb_cluster_list_t *esp_zb_cluster_list = esp_zb_zcl_cluster_list_create();
esp_zb_cluster_list_add_basic_cluster(esp_zb_cluster_list, esp_zb_basic_cluster, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE);
esp_zb_cluster_list_add_identify_cluster(esp_zb_cluster_list, esp_zb_identify_cluster, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE);
esp_zb_cluster_list_add_groups_cluster(esp_zb_cluster_list, esp_zb_groups_cluster, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE);
esp_zb_cluster_list_add_scenes_cluster(esp_zb_cluster_list, esp_zb_scenes_cluster, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE);
esp_zb_cluster_list_add_window_covering_cluster(esp_zb_cluster_list, esp_zb_window_covering_cluster, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE);
return esp_zb_cluster_list;
}
ZigbeeWindowCovering::ZigbeeWindowCovering(uint8_t endpoint) : ZigbeeEP(endpoint) {
_device_id = ESP_ZB_HA_WINDOW_COVERING_DEVICE_ID;
// set default values for window covering attributes
_current_lift_percentage = ESP_ZB_ZCL_WINDOW_COVERING_CURRENT_POSITION_LIFT_PERCENTAGE_DEFAULT_VALUE;
_current_tilt_percentage = ESP_ZB_ZCL_WINDOW_COVERING_CURRENT_POSITION_TILT_PERCENTAGE_DEFAULT_VALUE;
_installed_open_limit_lift = ESP_ZB_ZCL_WINDOW_COVERING_INSTALLED_OPEN_LIMIT_LIFT_DEFAULT_VALUE;
_installed_closed_limit_lift = ESP_ZB_ZCL_WINDOW_COVERING_INSTALLED_CLOSED_LIMIT_LIFT_DEFAULT_VALUE;
_installed_open_limit_tilt = ESP_ZB_ZCL_WINDOW_COVERING_INSTALLED_OPEN_LIMIT_TILT_DEFAULT_VALUE;
_installed_closed_limit_tilt = ESP_ZB_ZCL_WINDOW_COVERING_INSTALLED_CLOSED_LIMIT_TILT_DEFAULT_VALUE;
_current_lift_position = ESP_ZB_ZCL_WINDOW_COVERING_CURRENT_POSITION_LIFT_DEFAULT_VALUE;
_current_tilt_position = ESP_ZB_ZCL_WINDOW_COVERING_CURRENT_POSITION_TILT_DEFAULT_VALUE;
_physical_closed_limit_lift = ESP_ZB_ZCL_WINDOW_COVERING_PHYSICAL_CLOSED_LIMIT_LIFT_DEFAULT_VALUE;
_physical_closed_limit_tilt = ESP_ZB_ZCL_WINDOW_COVERING_PHY_CLOSED_LIMIT_TILT_DEFAULT_VALUE;
// Create custom window covering configuration
zigbee_window_covering_cfg_t window_covering_cfg = ZIGBEE_DEFAULT_WINDOW_COVERING_CONFIG();
_cluster_list = zigbee_window_covering_clusters_create(&window_covering_cfg);
_ep_config = {
.endpoint = _endpoint, .app_profile_id = ESP_ZB_AF_HA_PROFILE_ID, .app_device_id = ESP_ZB_HA_WINDOW_COVERING_DEVICE_ID, .app_device_version = 0
};
}
// Configuration methods for window covering
void ZigbeeWindowCovering::setCoveringType(ZigbeeWindowCoveringType covering_type) {
esp_zb_attribute_list_t *window_covering_cluster =
esp_zb_cluster_list_get_cluster(_cluster_list, ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE);
esp_zb_cluster_update_attr(window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_WINDOW_COVERING_TYPE_ID, (void *)&covering_type);
}
void ZigbeeWindowCovering::setConfigStatus(
bool operational, bool online, bool commands_reversed, bool lift_closed_loop, bool tilt_closed_loop, bool lift_encoder_controlled,
bool tilt_encoder_controlled
) {
uint8_t config_status = (operational ? ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CONFIG_OPERATIONAL : 0) | (online ? ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CONFIG_ONLINE : 0)
| (commands_reversed ? ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CONFIG_REVERSE_COMMANDS : 0)
| (lift_closed_loop ? ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CONFIG_LIFT_CONTROL_IS_CLOSED_LOOP : 0)
| (tilt_closed_loop ? ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CONFIG_TILT_CONTROL_IS_CLOSED_LOOP : 0)
| (lift_encoder_controlled ? ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CONFIG_LIFT_ENCODER_CONTROLLED : 0)
| (tilt_encoder_controlled ? ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CONFIG_TILT_ENCODER_CONTROLLED : 0);
log_v("Updating window covering config status to %d", config_status);
esp_zb_attribute_list_t *window_covering_cluster =
esp_zb_cluster_list_get_cluster(_cluster_list, ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE);
esp_zb_cluster_update_attr(window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CONFIG_STATUS_ID, (void *)&config_status);
}
void ZigbeeWindowCovering::setMode(bool motor_reversed, bool calibration_mode, bool maintenance_mode, bool leds_on) {
uint8_t mode = (motor_reversed ? ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_REVERSED_MOTOR_DIRECTION : 0)
| (calibration_mode ? ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_RUN_IN_CALIBRATION_MODE : 0)
| (maintenance_mode ? ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_MOTOR_IS_RUNNING_IN_MAINTENANCE_MODE : 0)
| (leds_on ? ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_LEDS_WILL_DISPLAY_FEEDBACK : 0);
log_v("Updating window covering mode to %d", mode);
esp_zb_attribute_list_t *window_covering_cluster =
esp_zb_cluster_list_get_cluster(_cluster_list, ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE);
esp_zb_cluster_update_attr(window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_MODE_ID, (void *)&mode);
}
void ZigbeeWindowCovering::setLimits(
uint16_t installed_open_limit_lift, uint16_t installed_closed_limit_lift, uint16_t installed_open_limit_tilt, uint16_t installed_closed_limit_tilt
) {
_installed_open_limit_lift = installed_open_limit_lift;
_installed_closed_limit_lift = installed_closed_limit_lift;
_physical_closed_limit_lift = installed_closed_limit_lift;
_installed_open_limit_tilt = installed_open_limit_tilt;
_installed_closed_limit_tilt = installed_closed_limit_tilt;
_physical_closed_limit_tilt = installed_closed_limit_tilt;
esp_zb_attribute_list_t *window_covering_cluster =
esp_zb_cluster_list_get_cluster(_cluster_list, ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE);
esp_zb_cluster_update_attr(window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_INSTALLED_OPEN_LIMIT_LIFT_ID, (void *)&_installed_open_limit_lift);
esp_zb_cluster_update_attr(window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_INSTALLED_CLOSED_LIMIT_LIFT_ID, (void *)&_installed_closed_limit_lift);
esp_zb_cluster_update_attr(window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_INSTALLED_OPEN_LIMIT_TILT_ID, (void *)&_installed_open_limit_tilt);
esp_zb_cluster_update_attr(window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_INSTALLED_CLOSED_LIMIT_TILT_ID, (void *)&_installed_closed_limit_tilt);
esp_zb_cluster_update_attr(window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_PHYSICAL_CLOSED_LIMIT_LIFT_ID, (void *)&_physical_closed_limit_lift);
esp_zb_cluster_update_attr(window_covering_cluster, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_PHY_CLOSED_LIMIT_TILT_ID, (void *)&_physical_closed_limit_tilt);
}
// Callback for handling incoming messages and commands
void ZigbeeWindowCovering::zbAttributeSet(const esp_zb_zcl_set_attr_value_message_t *message) {
//check the data and call right method
if (message->info.cluster == ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING) {
log_v("Received attribute id: 0x%x / data.type: 0x%x", message->attribute.id, message->attribute.data.type);
if (message->attribute.id == ESP_ZB_ZCL_ATTR_WINDOW_COVERING_MODE_ID && message->attribute.data.type == ESP_ZB_ZCL_ATTR_TYPE_8BITMAP) {
uint8_t mode = *(uint8_t *)message->attribute.data.value;
bool motor_reversed = mode & ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_REVERSED_MOTOR_DIRECTION;
bool calibration_mode = mode & ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_RUN_IN_CALIBRATION_MODE;
bool maintenance_mode = mode & ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_MOTOR_IS_RUNNING_IN_MAINTENANCE_MODE;
bool leds_on = mode & ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_LEDS_WILL_DISPLAY_FEEDBACK;
log_v(
"Updating window covering mode to motor reversed: %d, calibration mode: %d, maintenance mode: %d, leds on: %d", motor_reversed, calibration_mode,
maintenance_mode, leds_on
);
setMode(motor_reversed, calibration_mode, maintenance_mode, leds_on);
//Update Configuration status with motor reversed status
uint8_t config_status;
config_status = (*(uint8_t *)esp_zb_zcl_get_attribute(
_endpoint, ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CONFIG_STATUS_ID
)
->data_p);
config_status = motor_reversed ? config_status | ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CONFIG_REVERSE_COMMANDS
: config_status & ~ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CONFIG_REVERSE_COMMANDS;
log_v("Updating window covering config status to %d", config_status);
esp_zb_lock_acquire(portMAX_DELAY);
esp_zb_zcl_set_attribute_val(
_endpoint, ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CONFIG_STATUS_ID, &config_status,
false
);
esp_zb_lock_release();
return;
}
} else {
log_w("Received message ignored. Cluster ID: %d not supported for Window Covering", message->info.cluster);
}
}
void ZigbeeWindowCovering::zbWindowCoveringMovementCmd(const esp_zb_zcl_window_covering_movement_message_t *message) {
// check the data and call right method
if (message->info.cluster == ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING) {
if (message->command == ESP_ZB_ZCL_CMD_WINDOW_COVERING_UP_OPEN) {
open();
return;
} else if (message->command == ESP_ZB_ZCL_CMD_WINDOW_COVERING_DOWN_CLOSE) {
close();
return;
} else if (message->command == ESP_ZB_ZCL_CMD_WINDOW_COVERING_STOP) {
stop();
return;
} else if (message->command == ESP_ZB_ZCL_CMD_WINDOW_COVERING_GO_TO_LIFT_PERCENTAGE) {
if (_current_lift_percentage != message->payload.percentage_lift_value) {
_current_lift_percentage = message->payload.percentage_lift_value;
goToLiftPercentage(_current_lift_percentage);
}
return;
} else if (message->command == ESP_ZB_ZCL_CMD_WINDOW_COVERING_GO_TO_TILT_PERCENTAGE) {
if (_current_tilt_percentage != message->payload.percentage_tilt_value) {
_current_tilt_percentage = message->payload.percentage_tilt_value;
goToTiltPercentage(_current_tilt_percentage);
}
} else {
log_w("Received message ignored. Command: %d not supported for Window Covering", message->command);
}
} else {
log_w("Received message ignored. Cluster ID: %d not supported for Window Covering", message->info.cluster);
}
}
void ZigbeeWindowCovering::open() {
if (_on_open) {
_on_open();
}
}
void ZigbeeWindowCovering::close() {
if (_on_close) {
_on_close();
}
}
void ZigbeeWindowCovering::goToLiftPercentage(uint8_t lift_percentage) {
if (_on_go_to_lift_percentage) {
_on_go_to_lift_percentage(lift_percentage);
}
}
void ZigbeeWindowCovering::goToTiltPercentage(uint8_t tilt_percentage) {
if (_on_go_to_tilt_percentage) {
_on_go_to_tilt_percentage(tilt_percentage);
}
}
void ZigbeeWindowCovering::stop() {
if (_on_stop) {
_on_stop();
}
}
// Methods to control window covering from user application
void ZigbeeWindowCovering::setLiftPosition(uint16_t lift_position) {
// Update both lift attributes
_current_lift_position = lift_position;
_current_lift_percentage = ((lift_position - _installed_open_limit_lift) * 100) / (_installed_closed_limit_lift - _installed_open_limit_lift);
log_v("Updating window covering lift position to %d (%d%)", _current_lift_position, _current_lift_percentage);
// set lift state
esp_zb_lock_acquire(portMAX_DELAY);
esp_zb_zcl_set_attribute_val(
_endpoint, ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CURRENT_POSITION_LIFT_ID,
&_current_lift_position, false
);
esp_zb_zcl_set_attribute_val(
_endpoint, ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CURRENT_POSITION_LIFT_PERCENTAGE_ID,
&_current_lift_percentage, false
);
esp_zb_lock_release();
}
void ZigbeeWindowCovering::setLiftPercentage(uint8_t lift_percentage) {
// Update both lift attributes
_current_lift_percentage = lift_percentage;
_current_lift_position = _installed_open_limit_lift + ((_installed_closed_limit_lift - _installed_open_limit_lift) * lift_percentage) / 100;
log_v("Updating window covering lift position to %d (%d%)", _current_lift_position, _current_lift_percentage);
// set lift state
esp_zb_lock_acquire(portMAX_DELAY);
esp_zb_zcl_set_attribute_val(
_endpoint, ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CURRENT_POSITION_LIFT_ID,
&_current_lift_position, false
);
esp_zb_zcl_set_attribute_val(
_endpoint, ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CURRENT_POSITION_LIFT_PERCENTAGE_ID,
&_current_lift_percentage, false
);
esp_zb_lock_release();
}
void ZigbeeWindowCovering::setTiltPosition(uint16_t tilt_position) {
// Update both tilt attributes
_current_tilt_position = tilt_position;
_current_tilt_percentage = ((tilt_position - _installed_open_limit_tilt) * 100) / (_installed_closed_limit_tilt - _installed_open_limit_tilt);
log_v("Updating window covering tilt position to %d (%d%)", _current_tilt_position, _current_tilt_percentage);
// set lift state
esp_zb_lock_acquire(portMAX_DELAY);
esp_zb_zcl_set_attribute_val(
_endpoint, ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CURRENT_POSITION_TILT_ID,
&_current_tilt_position, false
);
esp_zb_zcl_set_attribute_val(
_endpoint, ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CURRENT_POSITION_TILT_PERCENTAGE_ID,
&_current_tilt_percentage, false
);
esp_zb_lock_release();
}
void ZigbeeWindowCovering::setTiltPercentage(uint8_t tilt_percentage) {
// Update both tilt attributes
_current_tilt_percentage = tilt_percentage;
_current_tilt_position = _installed_open_limit_lift + ((_installed_closed_limit_tilt - _installed_open_limit_tilt) * tilt_percentage) / 100;
log_v("Updating window covering tilt position to %d (%d%)", _current_tilt_position, _current_tilt_percentage);
// set lift state
esp_zb_lock_acquire(portMAX_DELAY);
esp_zb_zcl_set_attribute_val(
_endpoint, ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CURRENT_POSITION_TILT_ID,
&_current_tilt_position, false
);
esp_zb_zcl_set_attribute_val(
_endpoint, ESP_ZB_ZCL_CLUSTER_ID_WINDOW_COVERING, ESP_ZB_ZCL_CLUSTER_SERVER_ROLE, ESP_ZB_ZCL_ATTR_WINDOW_COVERING_CURRENT_POSITION_TILT_PERCENTAGE_ID,
&_current_tilt_percentage, false
);
esp_zb_lock_release();
}
#endif // SOC_IEEE802154_SUPPORTED && CONFIG_ZB_ENABLED

147
libraries/Zigbee/src/ep/ZigbeeWindowCovering.h Normal file
View file

@ -0,0 +1,147 @@
/* Class of Zigbee Window Covering endpoint inherited from common EP class */
#pragma once
#include "soc/soc_caps.h"
#include "sdkconfig.h"
#if SOC_IEEE802154_SUPPORTED && CONFIG_ZB_ENABLED
#include "ZigbeeEP.h"
#include "ha/esp_zigbee_ha_standard.h"
// Window covering types supported by Zigbee Window Covering cluster
enum ZigbeeWindowCoveringType {
ROLLERSHADE = ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_ROLLERSHADE, // LIFT support
ROLLERSHADE_2_MOTOR = ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_ROLLERSHADE_2_MOTOR, // LIFT support
ROLLERSHADE_EXTERIOR = ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_ROLLERSHADE_EXTERIOR, // LIFT support
ROLLERSHADE_EXTERIOR_2_MOTOR = ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_ROLLERSHADE_EXTERIOR_2_MOTOR, // LIFT support
DRAPERY = ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_DRAPERY, // LIFT support
AWNING = ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_AWNING, // LIFT support
SHUTTER = ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_SHUTTER, // TILT support
BLIND_TILT_ONLY = ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_TILT_BLIND_TILT_ONLY, // TILT support
BLIND_LIFT_AND_TILT = ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_TILT_BLIND_LIFT_AND_TILT, // LIFT and TILT support
PROJECTOR_SCREEN = ESP_ZB_ZCL_ATTR_WINDOW_COVERING_TYPE_PROJECTOR_SCREEN, // LIFT support
};
// clang-format off
#define ZIGBEE_DEFAULT_WINDOW_COVERING_CONFIG() \
{ \
.basic_cfg = \
{ \
.zcl_version = ESP_ZB_ZCL_BASIC_ZCL_VERSION_DEFAULT_VALUE, \
.power_source = ESP_ZB_ZCL_BASIC_POWER_SOURCE_DEFAULT_VALUE, \
}, \
.identify_cfg = \
{ \
.identify_time = ESP_ZB_ZCL_IDENTIFY_IDENTIFY_TIME_DEFAULT_VALUE, \
}, \
.groups_cfg = \
{ \
.groups_name_support_id = ESP_ZB_ZCL_GROUPS_NAME_SUPPORT_DEFAULT_VALUE, \
}, \
.scenes_cfg = \
{ \
.scenes_count = ESP_ZB_ZCL_SCENES_SCENE_COUNT_DEFAULT_VALUE, \
.current_scene = ESP_ZB_ZCL_SCENES_CURRENT_SCENE_DEFAULT_VALUE, \
.current_group = ESP_ZB_ZCL_SCENES_CURRENT_GROUP_DEFAULT_VALUE, \
.scene_valid = ESP_ZB_ZCL_SCENES_SCENE_VALID_DEFAULT_VALUE, \
.name_support = ESP_ZB_ZCL_SCENES_NAME_SUPPORT_DEFAULT_VALUE, \
}, \
.window_covering_cfg = \
{ \
.covering_type = ESP_ZB_ZCL_WINDOW_COVERING_WINDOW_COVERING_TYPE_DEFAULT_VALUE, \
.covering_status = ESP_ZB_ZCL_WINDOW_COVERING_CONFIG_STATUS_DEFAULT_VALUE, \
.covering_mode = ESP_ZB_ZCL_WINDOW_COVERING_MODE_DEFAULT_VALUE, \
}, \
}
// clang-format on
typedef struct zigbee_window_covering_cfg_s {
esp_zb_basic_cluster_cfg_t basic_cfg;
esp_zb_identify_cluster_cfg_t identify_cfg;
esp_zb_groups_cluster_cfg_t groups_cfg;
esp_zb_scenes_cluster_cfg_t scenes_cfg;
esp_zb_window_covering_cluster_cfg_t window_covering_cfg;
} zigbee_window_covering_cfg_t;
class ZigbeeWindowCovering : public ZigbeeEP {
public:
ZigbeeWindowCovering(uint8_t endpoint);
~ZigbeeWindowCovering();
// Set the callback functions for the window covering commands
void onOpen(void (*callback)()) {
_on_open = callback;
}
void onClose(void (*callback)()) {
_on_close = callback;
}
void onGoToLiftPercentage(void (*callback)(uint8_t)) {
_on_go_to_lift_percentage = callback;
}
void onGoToTiltPercentage(void (*callback)(uint8_t)) {
_on_go_to_tilt_percentage = callback;
}
void onStop(void (*callback)()) {
_on_stop = callback;
}
// Set the window covering position in centimeters or percentage (0-100)
void setLiftPosition(uint16_t lift_position);
void setLiftPercentage(uint8_t lift_percentage);
void setTiltPosition(uint16_t tilt_position);
void setTiltPercentage(uint8_t tilt_percentage);
// Set the window covering type (see ZigbeeWindowCoveringType)
void setCoveringType(ZigbeeWindowCoveringType covering_type);
// Set window covering config/status, for more info see esp_zb_zcl_window_covering_config_status_t
void setConfigStatus(
bool operational, bool online, bool commands_reversed, bool lift_closed_loop, bool tilt_closed_loop, bool lift_encoder_controlled,
bool tilt_encoder_controlled
);
// Set configuration mode of window covering, for more info see esp_zb_zcl_window_covering_mode_t
void setMode(bool motor_reversed, bool calibration_mode, bool maintenance_mode, bool leds_on);
// Set limits of motion, for more info see esp_zb_zcl_window_covering_info_attr_t
void setLimits(
uint16_t installed_open_limit_lift, uint16_t installed_closed_limit_lift, uint16_t installed_open_limit_tilt, uint16_t installed_closed_limit_tilt
);
private:
void zbAttributeSet(const esp_zb_zcl_set_attr_value_message_t *message) override;
void zbWindowCoveringMovementCmd(const esp_zb_zcl_window_covering_movement_message_t *message) override;
// Create window covering cluster list
esp_zb_cluster_list_t *zigbee_window_covering_clusters_create(zigbee_window_covering_cfg_t *window_covering_cfg);
void open();
void close();
void goToLiftPercentage(uint8_t);
void goToTiltPercentage(uint8_t);
void stop();
// callback function to be called on lift percentage change (lift percentage)
void (*_on_open)();
void (*_on_close)();
void (*_on_go_to_lift_percentage)(uint8_t);
void (*_on_go_to_tilt_percentage)(uint8_t);
void (*_on_stop)();
// Widows covering lift attributes
uint8_t _current_lift_percentage;
uint16_t _current_lift_position;
uint16_t _installed_open_limit_lift;
uint16_t _installed_closed_limit_lift;
uint16_t _physical_closed_limit_lift;
// Windows covering tilt attributes
uint8_t _current_tilt_percentage;
uint16_t _current_tilt_position;
uint16_t _installed_open_limit_tilt;
uint16_t _installed_closed_limit_tilt;
uint16_t _physical_closed_limit_tilt;
};
#endif // SOC_IEEE802154_SUPPORTED && CONFIG_ZB_ENABLED