[Programa] Lâmpada Zigbee
Notes(provisório)
Notas
# Arduino-ESP32 Zigbee Light Bulb Example
This example shows how to configure the Zigbee end device and use it as a
Home Automation (HA) on/off light bulb.
**This example is based on ESP-Zigbee-SDK example esp_zigbee_HA_sample/HA_on_off_light.**
# Supported Targets
Currently, this example supports the following targets.
| Supported Targets | ESP32-C6 | ESP32-H2 |
| ----------------- | -------- | -------- |
## Hardware Required
* One development board (ESP32-H2 or ESP32-C6) acting as
Zigbee coordinator (loaded with Zigbee_Light_switch example)
* A USB cable for power supply and programming
* Choose another board (ESP32-H2 or ESP32-C6) as
Zigbee end device (loaded with Zigbee_Light_bulb example)
### Configure the Project
Set the LED GPIO by changing the `LED_PIN` definition. By default, the LED_PIN is `RGB_BUILTIN`.
By default, the `neoPixelWrite` function is used to
control the LED. You can change it to digitalWrite to control a simple LED.
#### 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 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.
 |
Lâmpada Zigbee Light bulb
// Copyright 2023 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 simple Zigbee light bulb.
*
* The example demonstrates how to use ESP Zigbee stack to create a end device light bulb.
* The light bulb is a Zigbee end device, which is controlled by a Zigbee coordinator.
*
* 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.
*/
#ifndef ZIGBEE_MODE_ED
#error "Zigbee end device mode is not selected in Tools->Zigbee mode"
#endif
#include "esp_zigbee_core.h"
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "ha/esp_zigbee_ha_standard.h"
#define LED_PIN RGB_BUILTIN
/* Default End Device config */
#define ESP_ZB_ZED_CONFIG() \
{ \
.esp_zb_role = ESP_ZB_DEVICE_TYPE_ED, .install_code_policy = INSTALLCODE_POLICY_ENABLE, \
.nwk_cfg = { \
.zed_cfg = \
{ \
.ed_timeout = ED_AGING_TIMEOUT, \
.keep_alive = ED_KEEP_ALIVE, \
}, \
}, \
}
#define ESP_ZB_DEFAULT_RADIO_CONFIG() \
{ .radio_mode = ZB_RADIO_MODE_NATIVE, }
#define ESP_ZB_DEFAULT_HOST_CONFIG() \
{ .host_connection_mode = ZB_HOST_CONNECTION_MODE_NONE, }
/* Zigbee configuration */
#define INSTALLCODE_POLICY_ENABLE false /* enable the install code policy for security */
#define ED_AGING_TIMEOUT ESP_ZB_ED_AGING_TIMEOUT_64MIN
#define ED_KEEP_ALIVE 3000 /* 3000 millisecond */
#define HA_ESP_LIGHT_ENDPOINT 10 /* esp light bulb device endpoint, used to process light controlling commands */
#define ESP_ZB_PRIMARY_CHANNEL_MASK ESP_ZB_TRANSCEIVER_ALL_CHANNELS_MASK /* Zigbee primary channel mask use in the example */
/********************* Zigbee functions **************************/
static void bdb_start_top_level_commissioning_cb(uint8_t mode_mask) {
ESP_ERROR_CHECK(esp_zb_bdb_start_top_level_commissioning(mode_mask));
}
void esp_zb_app_signal_handler(esp_zb_app_signal_t *signal_struct) {
uint32_t *p_sg_p = signal_struct->p_app_signal;
esp_err_t err_status = signal_struct->esp_err_status;
esp_zb_app_signal_type_t sig_type = (esp_zb_app_signal_type_t)*p_sg_p;
switch (sig_type) {
case ESP_ZB_ZDO_SIGNAL_SKIP_STARTUP:
log_i("Zigbee stack initialized");
esp_zb_bdb_start_top_level_commissioning(ESP_ZB_BDB_MODE_INITIALIZATION);
break;
case ESP_ZB_BDB_SIGNAL_DEVICE_FIRST_START:
case ESP_ZB_BDB_SIGNAL_DEVICE_REBOOT:
if (err_status == ESP_OK) {
log_i("Device started up in %s factory-reset mode", esp_zb_bdb_is_factory_new() ? "" : "non");
if (esp_zb_bdb_is_factory_new()) {
log_i("Start network formation");
esp_zb_bdb_start_top_level_commissioning(ESP_ZB_BDB_MODE_NETWORK_STEERING);
} else {
log_i("Device rebooted");
}
} else {
/* commissioning failed */
log_w("Failed to initialize Zigbee stack (status: %s)", esp_err_to_name(err_status));
}
break;
case ESP_ZB_BDB_SIGNAL_STEERING:
if (err_status == ESP_OK) {
esp_zb_ieee_addr_t extended_pan_id;
esp_zb_get_extended_pan_id(extended_pan_id);
log_i(
"Joined network successfully (Extended PAN ID: %02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x, PAN ID: 0x%04hx, Channel:%d, Short Address: 0x%04hx)",
extended_pan_id[7], extended_pan_id[6], extended_pan_id[5], extended_pan_id[4], extended_pan_id[3], extended_pan_id[2], extended_pan_id[1],
extended_pan_id[0], esp_zb_get_pan_id(), esp_zb_get_current_channel(), esp_zb_get_short_address()
);
} else {
log_i("Network steering was not successful (status: %s)", esp_err_to_name(err_status));
esp_zb_scheduler_alarm((esp_zb_callback_t)bdb_start_top_level_commissioning_cb, ESP_ZB_BDB_MODE_NETWORK_STEERING, 1000);
}
break;
default: log_i("ZDO signal: %s (0x%x), status: %s", esp_zb_zdo_signal_to_string(sig_type), sig_type, esp_err_to_name(err_status)); break;
}
}
static esp_err_t zb_action_handler(esp_zb_core_action_callback_id_t callback_id, const void *message) {
esp_err_t ret = ESP_OK;
switch (callback_id) {
case ESP_ZB_CORE_SET_ATTR_VALUE_CB_ID: ret = zb_attribute_handler((esp_zb_zcl_set_attr_value_message_t *)message); break;
default: log_w("Receive Zigbee action(0x%x) callback", callback_id); break;
}
return ret;
}
static void esp_zb_task(void *pvParameters) {
esp_zb_cfg_t zb_nwk_cfg = ESP_ZB_ZED_CONFIG();
esp_zb_init(&zb_nwk_cfg);
esp_zb_on_off_light_cfg_t light_cfg = ESP_ZB_DEFAULT_ON_OFF_LIGHT_CONFIG();
esp_zb_ep_list_t *esp_zb_on_off_light_ep = esp_zb_on_off_light_ep_create(HA_ESP_LIGHT_ENDPOINT, &light_cfg);
esp_zb_device_register(esp_zb_on_off_light_ep);
esp_zb_core_action_handler_register(zb_action_handler);
esp_zb_set_primary_network_channel_set(ESP_ZB_PRIMARY_CHANNEL_MASK);
//Erase NVRAM before creating connection to new Coordinator
esp_zb_nvram_erase_at_start(true); //Comment out this line to erase NVRAM data if you are conneting to new Coordinator
ESP_ERROR_CHECK(esp_zb_start(false));
esp_zb_main_loop_iteration();
}
/* Handle the light attribute */
static esp_err_t zb_attribute_handler(const esp_zb_zcl_set_attr_value_message_t *message) {
esp_err_t ret = ESP_OK;
bool light_state = 0;
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_i(
"Received message: endpoint(%d), cluster(0x%x), attribute(0x%x), data size(%d)", message->info.dst_endpoint, message->info.cluster, message->attribute.id,
message->attribute.data.size
);
if (message->info.dst_endpoint == HA_ESP_LIGHT_ENDPOINT) {
if (message->info.cluster == ESP_ZB_ZCL_CLUSTER_ID_ON_OFF) {
if (message->attribute.id == ESP_ZB_ZCL_ATTR_ON_OFF_ON_OFF_ID && message->attribute.data.type == ESP_ZB_ZCL_ATTR_TYPE_BOOL) {
light_state = message->attribute.data.value ? *(bool *)message->attribute.data.value : light_state;
log_i("Light sets to %s", light_state ? "On" : "Off");
neopixelWrite(LED_PIN, 255 * light_state, 255 * light_state, 255 * light_state); // Toggle light
}
}
}
return ret;
}
/********************* Arduino functions **************************/
void setup() {
// Init Zigbee
esp_zb_platform_config_t config = {
.radio_config = ESP_ZB_DEFAULT_RADIO_CONFIG(),
.host_config = ESP_ZB_DEFAULT_HOST_CONFIG(),
};
ESP_ERROR_CHECK(esp_zb_platform_config(&config));
// Init RMT and leave light OFF
neopixelWrite(LED_PIN, 0, 0, 0);
// Start Zigbee task
xTaskCreate(esp_zb_task, "Zigbee_main", 4096, NULL, 5, NULL);
}
void loop() {
//empty, zigbee running in task
}
Interruptor Zigbee
Switch
// Copyright 2023 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 simple Zigbee light bulb.
*
* The example demonstrates how to use ESP Zigbee stack to create a end device light bulb.
* The light bulb is a Zigbee end device, which is controlled by a Zigbee coordinator.
*
* 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.
*/
#ifndef ZIGBEE_MODE_ED
#error "Zigbee end device mode is not selected in Tools->Zigbee mode"
#endif
#include "esp_zigbee_core.h"
#include "freertos/FreeRTOS.h"
#include "freertos/task.h"
#include "ha/esp_zigbee_ha_standard.h"
#define LED_PIN RGB_BUILTIN
/* Default End Device config */
#define ESP_ZB_ZED_CONFIG() \
{ \
.esp_zb_role = ESP_ZB_DEVICE_TYPE_ED, .install_code_policy = INSTALLCODE_POLICY_ENABLE, \
.nwk_cfg = { \
.zed_cfg = \
{ \
.ed_timeout = ED_AGING_TIMEOUT, \
.keep_alive = ED_KEEP_ALIVE, \
}, \
}, \
}
#define ESP_ZB_DEFAULT_RADIO_CONFIG() \
{ .radio_mode = ZB_RADIO_MODE_NATIVE, }
#define ESP_ZB_DEFAULT_HOST_CONFIG() \
{ .host_connection_mode = ZB_HOST_CONNECTION_MODE_NONE, }
/* Zigbee configuration */
#define INSTALLCODE_POLICY_ENABLE false /* enable the install code policy for security */
#define ED_AGING_TIMEOUT ESP_ZB_ED_AGING_TIMEOUT_64MIN
#define ED_KEEP_ALIVE 3000 /* 3000 millisecond */
#define HA_ESP_LIGHT_ENDPOINT 10 /* esp light bulb device endpoint, used to process light controlling commands */
#define ESP_ZB_PRIMARY_CHANNEL_MASK ESP_ZB_TRANSCEIVER_ALL_CHANNELS_MASK /* Zigbee primary channel mask use in the example */
/********************* Zigbee functions **************************/
static void bdb_start_top_level_commissioning_cb(uint8_t mode_mask) {
ESP_ERROR_CHECK(esp_zb_bdb_start_top_level_commissioning(mode_mask));
}
void esp_zb_app_signal_handler(esp_zb_app_signal_t *signal_struct) {
uint32_t *p_sg_p = signal_struct->p_app_signal;
esp_err_t err_status = signal_struct->esp_err_status;
esp_zb_app_signal_type_t sig_type = (esp_zb_app_signal_type_t)*p_sg_p;
switch (sig_type) {
case ESP_ZB_ZDO_SIGNAL_SKIP_STARTUP:
log_i("Zigbee stack initialized");
esp_zb_bdb_start_top_level_commissioning(ESP_ZB_BDB_MODE_INITIALIZATION);
break;
case ESP_ZB_BDB_SIGNAL_DEVICE_FIRST_START:
case ESP_ZB_BDB_SIGNAL_DEVICE_REBOOT:
if (err_status == ESP_OK) {
log_i("Device started up in %s factory-reset mode", esp_zb_bdb_is_factory_new() ? "" : "non");
if (esp_zb_bdb_is_factory_new()) {
log_i("Start network formation");
esp_zb_bdb_start_top_level_commissioning(ESP_ZB_BDB_MODE_NETWORK_STEERING);
} else {
log_i("Device rebooted");
}
} else {
/* commissioning failed */
log_w("Failed to initialize Zigbee stack (status: %s)", esp_err_to_name(err_status));
}
break;
case ESP_ZB_BDB_SIGNAL_STEERING:
if (err_status == ESP_OK) {
esp_zb_ieee_addr_t extended_pan_id;
esp_zb_get_extended_pan_id(extended_pan_id);
log_i(
"Joined network successfully (Extended PAN ID: %02x:%02x:%02x:%02x:%02x:%02x:%02x:%02x, PAN ID: 0x%04hx, Channel:%d, Short Address: 0x%04hx)",
extended_pan_id[7], extended_pan_id[6], extended_pan_id[5], extended_pan_id[4], extended_pan_id[3], extended_pan_id[2], extended_pan_id[1],
extended_pan_id[0], esp_zb_get_pan_id(), esp_zb_get_current_channel(), esp_zb_get_short_address()
);
} else {
log_i("Network steering was not successful (status: %s)", esp_err_to_name(err_status));
esp_zb_scheduler_alarm((esp_zb_callback_t)bdb_start_top_level_commissioning_cb, ESP_ZB_BDB_MODE_NETWORK_STEERING, 1000);
}
break;
default: log_i("ZDO signal: %s (0x%x), status: %s", esp_zb_zdo_signal_to_string(sig_type), sig_type, esp_err_to_name(err_status)); break;
}
}
static esp_err_t zb_action_handler(esp_zb_core_action_callback_id_t callback_id, const void *message) {
esp_err_t ret = ESP_OK;
switch (callback_id) {
case ESP_ZB_CORE_SET_ATTR_VALUE_CB_ID: ret = zb_attribute_handler((esp_zb_zcl_set_attr_value_message_t *)message); break;
default: log_w("Receive Zigbee action(0x%x) callback", callback_id); break;
}
return ret;
}
static void esp_zb_task(void *pvParameters) {
esp_zb_cfg_t zb_nwk_cfg = ESP_ZB_ZED_CONFIG();
esp_zb_init(&zb_nwk_cfg);
esp_zb_on_off_light_cfg_t light_cfg = ESP_ZB_DEFAULT_ON_OFF_LIGHT_CONFIG();
esp_zb_ep_list_t *esp_zb_on_off_light_ep = esp_zb_on_off_light_ep_create(HA_ESP_LIGHT_ENDPOINT, &light_cfg);
esp_zb_device_register(esp_zb_on_off_light_ep);
esp_zb_core_action_handler_register(zb_action_handler);
esp_zb_set_primary_network_channel_set(ESP_ZB_PRIMARY_CHANNEL_MASK);
//Erase NVRAM before creating connection to new Coordinator
esp_zb_nvram_erase_at_start(true); //Comment out this line to erase NVRAM data if you are conneting to new Coordinator
ESP_ERROR_CHECK(esp_zb_start(false));
esp_zb_main_loop_iteration();
}
/* Handle the light attribute */
static esp_err_t zb_attribute_handler(const esp_zb_zcl_set_attr_value_message_t *message) {
esp_err_t ret = ESP_OK;
bool light_state = 0;
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_i(
"Received message: endpoint(%d), cluster(0x%x), attribute(0x%x), data size(%d)", message->info.dst_endpoint, message->info.cluster, message->attribute.id,
message->attribute.data.size
);
if (message->info.dst_endpoint == HA_ESP_LIGHT_ENDPOINT) {
if (message->info.cluster == ESP_ZB_ZCL_CLUSTER_ID_ON_OFF) {
if (message->attribute.id == ESP_ZB_ZCL_ATTR_ON_OFF_ON_OFF_ID && message->attribute.data.type == ESP_ZB_ZCL_ATTR_TYPE_BOOL) {
light_state = message->attribute.data.value ? *(bool *)message->attribute.data.value : light_state;
log_i("Light sets to %s", light_state ? "On" : "Off");
neopixelWrite(LED_PIN, 255 * light_state, 255 * light_state, 255 * light_state); // Toggle light
}
}
}
return ret;
}
/********************* Arduino functions **************************/
void setup() {
// Init Zigbee
esp_zb_platform_config_t config = {
.radio_config = ESP_ZB_DEFAULT_RADIO_CONFIG(),
.host_config = ESP_ZB_DEFAULT_HOST_CONFIG(),
};
ESP_ERROR_CHECK(esp_zb_platform_config(&config));
// Init RMT and leave light OFF
neopixelWrite(LED_PIN, 0, 0, 0);
// Start Zigbee task
xTaskCreate(esp_zb_task, "Zigbee_main", 4096, NULL, 5, NULL);
}
void loop() {
//empty, zigbee running in task
}
ZigbeeExemplo
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