Hi,
I have currently started the development with nRF52840 PDK. I need to get a simple program for a Zigbee coordinator and sleepy end device. I have tried the light example. I have only two boards, I tried to load the coordinator example in one and the switch example on the other. I have to communicate something simple between the board and sleep the end device for 1 second after each communication.
Please help
Hi,
If you only have two boards and you want to test the light switch together with the light bulb you can merge the light bulb example to the light coordinator example so you will have light bulb coordinator device and a light switch device.
The coordinator code is nearly the same as the router code. It's better to start with the light bulb example - the coordinator just have an additional define, different startup function and signal handler, so you need to modify those parts accordintly in the light bulb example.
Best regards,
Marjeris
Hi,
thank you for your response. in light_bulb code I have changed the role in the main code, and signal handler as in coordinator.. will you please help me to find the error. the device is steering.. but both the devices are not getting connected
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*
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* contributors may be used to endorse or promote products derived from this
* software without specific prior written permission.
*
* 4. This software, with or without modification, must only be used with a
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/** @file
*
* @defgroup zigbee_examples_light_bulb main.c
* @{
* @ingroup zigbee_examples
* @brief Dimmable light sample (HA profile)
*/
#include "sdk_config.h"
#include "zboss_api.h"
#include "zboss_api_addons.h"
#include "zb_mem_config_med.h"
#include "zb_ha_dimmable_light.h"
#include "zb_error_handler.h"
#include "zb_nrf52_internal.h"
#include "zigbee_helpers.h"
#include "bsp.h"
#include "boards.h"
#include "app_pwm.h"
#include "app_timer.h"
#include "nrf_log.h"
#include "nrf_log_ctrl.h"
#include "nrf_log_default_backends.h"
#include "drv_ws2812.h"
#define MAX_CHILDREN 10 /**< The maximum amount of connected devices. Setting this value to 0 disables association to this device. */
#define IEEE_CHANNEL_MASK ZB_TRANSCEIVER_ALL_CHANNELS_MASK //(1l << ZIGBEE_CHANNEL) /**< Scan only one, predefined channel to find the coordinator. */
#define HA_DIMMABLE_LIGHT_ENDPOINT 10 /**< Device endpoint, used to receive light controlling commands. */
#define ERASE_PERSISTENT_CONFIG ZB_FALSE /**< Do not erase NVRAM to save the network parameters after device reboot or power-off. */
#define BULB_PWM_NAME PWM1 /**< PWM instance used to drive dimmable light bulb. */
#define BULB_PWM_TIMER 2 /**< Timer number used by PWM. */
/* Basic cluster attributes initial values. */
#define BULB_INIT_BASIC_APP_VERSION 01 /**< Version of the application software (1 byte). */
#define BULB_INIT_BASIC_STACK_VERSION 10 /**< Version of the implementation of the Zigbee stack (1 byte). */
#define BULB_INIT_BASIC_HW_VERSION 11 /**< Version of the hardware of the device (1 byte). */
#define BULB_INIT_BASIC_MANUF_NAME "Nordic" /**< Manufacturer name (32 bytes). */
#define BULB_INIT_BASIC_MODEL_ID "Dimable_Light_v0.1" /**< Model number assigned by manufacturer (32-bytes long string). */
#define BULB_INIT_BASIC_DATE_CODE "20180416" /**< First 8 bytes specify the date of manufacturer of the device in ISO 8601 format (YYYYMMDD). The rest (8 bytes) are manufacturer specific. */
#define BULB_INIT_BASIC_POWER_SOURCE ZB_ZCL_BASIC_POWER_SOURCE_DC_SOURCE /**< Type of power sources available for the device. For possible values see section 3.2.2.2.8 of ZCL specification. */
#define BULB_INIT_BASIC_LOCATION_DESC "Office desk" /**< Describes the physical location of the device (16 bytes). May be modified during commisioning process. */
#define BULB_INIT_BASIC_PH_ENV ZB_ZCL_BASIC_ENV_UNSPECIFIED /**< Describes the type of physical environment. For possible values see section 3.2.2.2.10 of ZCL specification. */
#ifdef BOARD_PCA10059 /**< If it is Dongle */
#define IDENTIFY_MODE_BSP_EVT BSP_EVENT_KEY_0 /**< Button event used to enter the Bulb into the Identify mode. */
#define ZIGBEE_NETWORK_STATE_LED BSP_BOARD_LED_0 /**< LED indicating that light switch successfully joind Zigbee network. */
#else
#define IDENTIFY_MODE_BSP_EVT BSP_EVENT_KEY_3 /**< Button event used to enter the Bulb into the Identify mode. */
#define ZIGBEE_NETWORK_STATE_LED BSP_BOARD_LED_2 /**< LED indicating that light switch successfully joind Zigbee network. */
#endif
#define BULB_LED BSP_BOARD_LED_3 /**< LED immitaing dimmable light bulb. */
#define ZIGBEE_NETWORK_REOPEN_BUTTON BSP_BOARD_BUTTON_0 /**< Button which reopens the Zigbee Network. */
#define ZIGBEE_MANUAL_STEERING ZB_FALSE /**< If set to 1 then device will not open the network after forming or reboot. */
#define ZIGBEE_PERMIT_LEGACY_DEVICES ZB_FALSE /**< If set to 1 then legacy devices (pre-Zigbee 3.0) can join the network. */
#if (APP_BULB_USE_WS2812_LED_CHAIN)
#define LED_CHAIN_DOUT_PIN NRF_GPIO_PIN_MAP(1,7) /**< GPIO pin used as DOUT (to be connected to DIN pin of the first ws2812 led in chain) */
#endif
/* Declare endpoint for Dimmable Light device with scenes. */
#define ZB_HA_DECLARE_LIGHT_EP(ep_name, ep_id, cluster_list) \
ZB_ZCL_DECLARE_HA_DIMMABLE_LIGHT_SIMPLE_DESC(ep_name, ep_id, \
ZB_HA_DIMMABLE_LIGHT_IN_CLUSTER_NUM, ZB_HA_DIMMABLE_LIGHT_OUT_CLUSTER_NUM); \
ZBOSS_DEVICE_DECLARE_REPORTING_CTX(reporting_info## device_ctx_name, \
ZB_HA_DIMMABLE_LIGHT_REPORT_ATTR_COUNT); \
ZBOSS_DEVICE_DECLARE_LEVEL_CONTROL_CTX(cvc_alarm_info## device_ctx_name, \
ZB_HA_DIMMABLE_LIGHT_CVC_ATTR_COUNT); \
ZB_AF_DECLARE_ENDPOINT_DESC(ep_name, ep_id, ZB_AF_HA_PROFILE_ID, \
0, \
NULL, \
ZB_ZCL_ARRAY_SIZE(cluster_list, zb_zcl_cluster_desc_t),\
cluster_list, \
(zb_af_simple_desc_1_1_t*)&simple_desc_##ep_name, \
ZB_HA_DIMMABLE_LIGHT_REPORT_ATTR_COUNT, \
reporting_info## device_ctx_name, \
ZB_HA_DIMMABLE_LIGHT_CVC_ATTR_COUNT, \
cvc_alarm_info## device_ctx_name)
#if !defined ZB_COORDINATOR_ROLE
#error Define ZB_COORDINATOR_ROLE to compile coordinator source code.
#endif
/* Main application customizable context. Stores all settings and static values. */
typedef struct
{
zb_zcl_basic_attrs_ext_t basic_attr;
zb_zcl_identify_attrs_t identify_attr;
zb_zcl_scenes_attrs_t scenes_attr;
zb_zcl_groups_attrs_t groups_attr;
zb_zcl_on_off_attrs_ext_t on_off_attr;
zb_zcl_level_control_attrs_t level_control_attr;
} bulb_device_ctx_t;
APP_PWM_INSTANCE(BULB_PWM_NAME, BULB_PWM_TIMER);
static bulb_device_ctx_t m_dev_ctx;
ZB_ZCL_DECLARE_IDENTIFY_ATTRIB_LIST(identify_attr_list, &m_dev_ctx.identify_attr.identify_time);
ZB_ZCL_DECLARE_GROUPS_ATTRIB_LIST(groups_attr_list, &m_dev_ctx.groups_attr.name_support);
ZB_ZCL_DECLARE_SCENES_ATTRIB_LIST(scenes_attr_list,
&m_dev_ctx.scenes_attr.scene_count,
&m_dev_ctx.scenes_attr.current_scene,
&m_dev_ctx.scenes_attr.current_group,
&m_dev_ctx.scenes_attr.scene_valid,
&m_dev_ctx.scenes_attr.name_support);
ZB_ZCL_DECLARE_BASIC_ATTRIB_LIST_EXT(basic_attr_list,
&m_dev_ctx.basic_attr.zcl_version,
&m_dev_ctx.basic_attr.app_version,
&m_dev_ctx.basic_attr.stack_version,
&m_dev_ctx.basic_attr.hw_version,
m_dev_ctx.basic_attr.mf_name,
m_dev_ctx.basic_attr.model_id,
m_dev_ctx.basic_attr.date_code,
&m_dev_ctx.basic_attr.power_source,
m_dev_ctx.basic_attr.location_id,
&m_dev_ctx.basic_attr.ph_env,
m_dev_ctx.basic_attr.sw_ver);
/* On/Off cluster attributes additions data */
ZB_ZCL_DECLARE_ON_OFF_ATTRIB_LIST_EXT(on_off_attr_list,
&m_dev_ctx.on_off_attr.on_off,
&m_dev_ctx.on_off_attr.global_scene_ctrl,
&m_dev_ctx.on_off_attr.on_time,
&m_dev_ctx.on_off_attr.off_wait_time);
ZB_ZCL_DECLARE_LEVEL_CONTROL_ATTRIB_LIST(level_control_attr_list,
&m_dev_ctx.level_control_attr.current_level,
&m_dev_ctx.level_control_attr.remaining_time);
ZB_HA_DECLARE_DIMMABLE_LIGHT_CLUSTER_LIST(dimmable_light_clusters,
basic_attr_list,
identify_attr_list,
groups_attr_list,
scenes_attr_list,
on_off_attr_list,
level_control_attr_list);
ZB_HA_DECLARE_LIGHT_EP(dimmable_light_ep,
HA_DIMMABLE_LIGHT_ENDPOINT,
dimmable_light_clusters);
ZB_HA_DECLARE_DIMMABLE_LIGHT_CTX(dimmable_light_ctx,
dimmable_light_ep);
#if (APP_BULB_USE_WS2812_LED_CHAIN)
/**@brief Timer responsible for triggering periodic led chain refresh */
APP_TIMER_DEF(m_ws2812_refresh_timer);
/** @brief Requests a led chain refresh */
static volatile bool m_ws2812_refresh_request;
#endif
/**@brief Function for initializing the application timer.
*/
static void timer_init(void)
{
uint32_t error_code = app_timer_init();
APP_ERROR_CHECK(error_code);
}
/**@brief Function for initializing the nrf log module.
*/
static void log_init(void)
{
ret_code_t err_code = NRF_LOG_INIT(NULL);
APP_ERROR_CHECK(err_code);
NRF_LOG_DEFAULT_BACKENDS_INIT();
}
/**@brief Callback used in order to visualise network steering period.
*
* @param[in] param Not used. Required by callback type definition.
*/
static zb_void_t steering_finished(zb_uint8_t param)
{
UNUSED_PARAMETER(param);
NRF_LOG_INFO("Network steering finished");
bsp_board_led_off(ZIGBEE_NETWORK_STATE_LED);
}
/**@brief Sets brightness of on-board LED
*
* @param[in] brightness_level Brightness level, allowed values 0 ... 255, 0 - turn off, 255 - full brightness
*/
static void light_bulb_onboard_set_brightness(zb_uint8_t brightness_level)
{
app_pwm_duty_t app_pwm_duty;
/* Scale level value: APP_PWM uses 0-100 scale, but Zigbee level control cluster uses values from 0 up to 255. */
app_pwm_duty = (brightness_level * 100U) / 255U;
/* Set the duty cycle - keep trying until PWM is ready. */
while (app_pwm_channel_duty_set(&BULB_PWM_NAME, 0, app_pwm_duty) == NRF_ERROR_BUSY)
{
}
}
#if (APP_BULB_USE_WS2812_LED_CHAIN)
/**@brief Sets brightness of ws2812 led chain
*
* @param[in] brightness_level Brightness level, allowed values 0 ... 255, 0 - turn off, 255 - full brightness
*/
static void light_bulb_ws2812_chain_set_brightness(zb_uint8_t brightness_level)
{
uint32_t color;
/* Decrease brightness just to save your eyes. LEDs can be very bright */
if (brightness_level >= 2U)
{
brightness_level /= 2U;
}
color = ((uint32_t)brightness_level << 16); /* Red component */
color |= ((uint32_t)brightness_level << 8); /* Green component */
color |= (uint32_t)brightness_level; /* Blue component */
drv_ws2812_set_pixel_all(color);
/* Main loop will take care of refreshing led chain */
m_ws2812_refresh_request = true;
}
#endif
/**@brief Sets brightness of bulb luminous executive element
*
* @param[in] brightness_level Brightness level, allowed values 0 ... 255, 0 - turn off, 255 - full brightness
*/
static void light_bulb_set_brightness(zb_uint8_t brightness_level)
{
light_bulb_onboard_set_brightness(brightness_level);
#if (APP_BULB_USE_WS2812_LED_CHAIN)
light_bulb_ws2812_chain_set_brightness(brightness_level);
#endif
}
/**@brief Function for setting the light bulb brightness.
*
* @param[in] new_level Light bulb brightness value.
*/
static void level_control_set_value(zb_uint16_t new_level)
{
NRF_LOG_INFO("Set level value: %i", new_level);
ZB_ZCL_SET_ATTRIBUTE(HA_DIMMABLE_LIGHT_ENDPOINT,
ZB_ZCL_CLUSTER_ID_LEVEL_CONTROL,
ZB_ZCL_CLUSTER_SERVER_ROLE,
ZB_ZCL_ATTR_LEVEL_CONTROL_CURRENT_LEVEL_ID,
(zb_uint8_t *)&new_level,
ZB_FALSE);
/* According to the table 7.3 of Home Automation Profile Specification v 1.2 rev 29, chapter 7.1.3. */
if (new_level == 0)
{
zb_uint8_t value = ZB_FALSE;
ZB_ZCL_SET_ATTRIBUTE(HA_DIMMABLE_LIGHT_ENDPOINT,
ZB_ZCL_CLUSTER_ID_ON_OFF,
ZB_ZCL_CLUSTER_SERVER_ROLE,
ZB_ZCL_ATTR_ON_OFF_ON_OFF_ID,
&value,
ZB_FALSE);
}
else
{
zb_uint8_t value = ZB_TRUE;
ZB_ZCL_SET_ATTRIBUTE(HA_DIMMABLE_LIGHT_ENDPOINT,
ZB_ZCL_CLUSTER_ID_ON_OFF,
ZB_ZCL_CLUSTER_SERVER_ROLE,
ZB_ZCL_ATTR_ON_OFF_ON_OFF_ID,
&value,
ZB_FALSE);
}
light_bulb_set_brightness(new_level);
}
/**@brief Function for turning ON/OFF the light bulb.
*
* @param[in] on Boolean light bulb state.
*/
static void on_off_set_value(zb_bool_t on)
{
NRF_LOG_INFO("Set ON/OFF value: %i", on);
ZB_ZCL_SET_ATTRIBUTE(HA_DIMMABLE_LIGHT_ENDPOINT,
ZB_ZCL_CLUSTER_ID_ON_OFF,
ZB_ZCL_CLUSTER_SERVER_ROLE,
ZB_ZCL_ATTR_ON_OFF_ON_OFF_ID,
(zb_uint8_t *)&on,
ZB_FALSE);
if (on)
{
level_control_set_value(m_dev_ctx.level_control_attr.current_level);
}
else
{
light_bulb_set_brightness(0U);
}
}
/**@brief Callback for button events.
*
* @param[in] evt Incoming event from the BSP subsystem.
*/
static void buttons_handler(bsp_event_t evt)
{
zb_ret_t zb_err_code;
switch(evt)
{
case IDENTIFY_MODE_BSP_EVT:
/* Check if endpoint is in identifying mode, if not put desired endpoint in identifying mode. */
if (m_dev_ctx.identify_attr.identify_time == ZB_ZCL_IDENTIFY_IDENTIFY_TIME_DEFAULT_VALUE)
{
NRF_LOG_INFO("Bulb put in identifying mode");
zb_err_code = zb_bdb_finding_binding_target(HA_DIMMABLE_LIGHT_ENDPOINT);
ZB_ERROR_CHECK(zb_err_code);
}
else
{
NRF_LOG_INFO("Cancel F&B target procedure");
zb_bdb_finding_binding_target_cancel();
}
break;
default:
NRF_LOG_INFO("Unhandled BSP Event received: %d", evt);
break;
}
}
/**@brief Function for initializing LEDs and a single PWM channel.
*/
static void leds_buttons_init(void)
{
ret_code_t err_code;
app_pwm_config_t pwm_cfg = APP_PWM_DEFAULT_CONFIG_1CH(5000L, bsp_board_led_idx_to_pin(BULB_LED));
/* Initialize all LEDs and buttons. */
err_code = bsp_init(BSP_INIT_LEDS | BSP_INIT_BUTTONS, buttons_handler);
APP_ERROR_CHECK(err_code);
/* By default the bsp_init attaches BSP_KEY_EVENTS_{0-4} to the PUSH events of the corresponding buttons. */
/* Initialize PWM running on timer 1 in order to control dimmable light bulb. */
err_code = app_pwm_init(&BULB_PWM_NAME, &pwm_cfg, NULL);
APP_ERROR_CHECK(err_code);
app_pwm_enable(&BULB_PWM_NAME);
while (app_pwm_channel_duty_set(&BULB_PWM_NAME, 0, 99) == NRF_ERROR_BUSY)
{
}
}
/**@brief Function for initializing all clusters attributes.
*/
static void bulb_clusters_attr_init(void)
{
/* Basic cluster attributes data */
m_dev_ctx.basic_attr.zcl_version = ZB_ZCL_VERSION;
m_dev_ctx.basic_attr.app_version = BULB_INIT_BASIC_APP_VERSION;
m_dev_ctx.basic_attr.stack_version = BULB_INIT_BASIC_STACK_VERSION;
m_dev_ctx.basic_attr.hw_version = BULB_INIT_BASIC_HW_VERSION;
/* Use ZB_ZCL_SET_STRING_VAL to set strings, because the first byte should
* contain string length without trailing zero.
*
* For example "test" string wil be encoded as:
* [(0x4), 't', 'e', 's', 't']
*/
ZB_ZCL_SET_STRING_VAL(m_dev_ctx.basic_attr.mf_name,
BULB_INIT_BASIC_MANUF_NAME,
ZB_ZCL_STRING_CONST_SIZE(BULB_INIT_BASIC_MANUF_NAME));
ZB_ZCL_SET_STRING_VAL(m_dev_ctx.basic_attr.model_id,
BULB_INIT_BASIC_MODEL_ID,
ZB_ZCL_STRING_CONST_SIZE(BULB_INIT_BASIC_MODEL_ID));
ZB_ZCL_SET_STRING_VAL(m_dev_ctx.basic_attr.date_code,
BULB_INIT_BASIC_DATE_CODE,
ZB_ZCL_STRING_CONST_SIZE(BULB_INIT_BASIC_DATE_CODE));
m_dev_ctx.basic_attr.power_source = BULB_INIT_BASIC_POWER_SOURCE;
ZB_ZCL_SET_STRING_VAL(m_dev_ctx.basic_attr.location_id,
BULB_INIT_BASIC_LOCATION_DESC,
ZB_ZCL_STRING_CONST_SIZE(BULB_INIT_BASIC_LOCATION_DESC));
m_dev_ctx.basic_attr.ph_env = BULB_INIT_BASIC_PH_ENV;
/* Identify cluster attributes data */
m_dev_ctx.identify_attr.identify_time = ZB_ZCL_IDENTIFY_IDENTIFY_TIME_DEFAULT_VALUE;
/* On/Off cluster attributes data */
m_dev_ctx.on_off_attr.on_off = (zb_bool_t)ZB_ZCL_ON_OFF_IS_ON;
m_dev_ctx.level_control_attr.current_level = ZB_ZCL_LEVEL_CONTROL_LEVEL_MAX_VALUE;
m_dev_ctx.level_control_attr.remaining_time = ZB_ZCL_LEVEL_CONTROL_REMAINING_TIME_DEFAULT_VALUE;
ZB_ZCL_SET_ATTRIBUTE(HA_DIMMABLE_LIGHT_ENDPOINT,
ZB_ZCL_CLUSTER_ID_ON_OFF,
ZB_ZCL_CLUSTER_SERVER_ROLE,
ZB_ZCL_ATTR_ON_OFF_ON_OFF_ID,
(zb_uint8_t *)&m_dev_ctx.on_off_attr.on_off,
ZB_FALSE);
ZB_ZCL_SET_ATTRIBUTE(HA_DIMMABLE_LIGHT_ENDPOINT,
ZB_ZCL_CLUSTER_ID_LEVEL_CONTROL,
ZB_ZCL_CLUSTER_SERVER_ROLE,
ZB_ZCL_ATTR_LEVEL_CONTROL_CURRENT_LEVEL_ID,
(zb_uint8_t *)&m_dev_ctx.level_control_attr.current_level,
ZB_FALSE);
}
/**@brief Function which tries to sleep down the MCU
*
* Function which sleeps the MCU on the non-sleepy End Devices to optimize the power saving.
* The weak definition inside the OSIF layer provides some minimal working template
*/
zb_void_t zb_osif_go_idle(zb_void_t)
{
//TODO: implement your own logic if needed
zb_osif_wait_for_event();
}
/**@brief Callback function for handling ZCL commands.
*
* @param[in] bufid Reference to Zigbee stack buffer used to pass received data.
*/
static zb_void_t zcl_device_cb(zb_bufid_t bufid)
{
zb_uint8_t cluster_id;
zb_uint8_t attr_id;
zb_zcl_device_callback_param_t * p_device_cb_param = ZB_BUF_GET_PARAM(bufid, zb_zcl_device_callback_param_t);
NRF_LOG_INFO("zcl_device_cb id %hd", p_device_cb_param->device_cb_id);
/* Set default response value. */
p_device_cb_param->status = RET_OK;
switch (p_device_cb_param->device_cb_id)
{
case ZB_ZCL_LEVEL_CONTROL_SET_VALUE_CB_ID:
NRF_LOG_INFO("Level control setting to %d", p_device_cb_param->cb_param.level_control_set_value_param.new_value);
level_control_set_value(p_device_cb_param->cb_param.level_control_set_value_param.new_value);
break;
case ZB_ZCL_SET_ATTR_VALUE_CB_ID:
cluster_id = p_device_cb_param->cb_param.set_attr_value_param.cluster_id;
attr_id = p_device_cb_param->cb_param.set_attr_value_param.attr_id;
if (cluster_id == ZB_ZCL_CLUSTER_ID_ON_OFF)
{
uint8_t value = p_device_cb_param->cb_param.set_attr_value_param.values.data8;
NRF_LOG_INFO("on/off attribute setting to %hd", value);
if (attr_id == ZB_ZCL_ATTR_ON_OFF_ON_OFF_ID)
{
on_off_set_value((zb_bool_t) value);
}
}
else if (cluster_id == ZB_ZCL_CLUSTER_ID_LEVEL_CONTROL)
{
uint16_t value = p_device_cb_param->cb_param.set_attr_value_param.values.data16;
NRF_LOG_INFO("level control attribute setting to %hd", value);
if (attr_id == ZB_ZCL_ATTR_LEVEL_CONTROL_CURRENT_LEVEL_ID)
{
level_control_set_value(value);
}
}
else
{
/* Other clusters can be processed here */
NRF_LOG_INFO("Unhandled cluster attribute id: %d", cluster_id);
}
break;
default:
p_device_cb_param->status = RET_ERROR;
break;
}
NRF_LOG_INFO("zcl_device_cb status: %hd", p_device_cb_param->status);
}
/**@brief Zigbee stack event handler.
*
* @param[in] bufid Reference to the Zigbee stack buffer used to pass signal.
*/
void zboss_signal_handler(zb_bufid_t bufid)
{
zb_zdo_app_signal_hdr_t * p_sg_p = NULL;
zb_zdo_app_signal_type_t sig = zb_get_app_signal(bufid, &p_sg_p);
zb_ret_t status = ZB_GET_APP_SIGNAL_STATUS(bufid);
zb_ret_t zb_err_code;
zb_bool_t comm_status;
// zb_time_t timeout_bi;
/* Update network status LED */
zigbee_led_status_update(bufid, ZIGBEE_NETWORK_STATE_LED);
switch(sig)
{
case ZB_BDB_SIGNAL_DEVICE_REBOOT:
// BDB initialization completed after device reboot, use NVRAM contents during initialization. Device joined/rejoined and started.
if (status == RET_OK)
{
if (ZIGBEE_MANUAL_STEERING == ZB_FALSE)
{
NRF_LOG_INFO("Start network steering");
comm_status = bdb_start_top_level_commissioning(ZB_BDB_NETWORK_STEERING);
ZB_COMM_STATUS_CHECK(comm_status);
}
else
{
NRF_LOG_INFO("Coordinator restarted successfully");
}
}
else
{
NRF_LOG_ERROR("Failed to initialize Zigbee stack using NVRAM data (status: %d)", status);
}
break;
case ZB_BDB_SIGNAL_STEERING:
if (status == RET_OK)
{
if (ZIGBEE_PERMIT_LEGACY_DEVICES == ZB_TRUE)
{
NRF_LOG_INFO("Allow pre-Zigbee 3.0 devices to join the network");
zb_bdb_set_legacy_device_support(1);
}
/* Schedule an alarm to notify about the end of steering period */
NRF_LOG_INFO("Network steering started");
zb_err_code = ZB_SCHEDULE_APP_ALARM(steering_finished, 0, ZB_TIME_ONE_SECOND * ZB_ZGP_DEFAULT_COMMISSIONING_WINDOW);
ZB_ERROR_CHECK(zb_err_code);
}
#ifndef ZB_ED_ROLE
zb_enable_auto_pan_id_conflict_resolution(ZB_FALSE);
#endif
break;
case ZB_ZDO_SIGNAL_DEVICE_ANNCE:
{
zb_zdo_signal_device_annce_params_t * dev_annce_params = ZB_ZDO_SIGNAL_GET_PARAMS(p_sg_p, zb_zdo_signal_device_annce_params_t);
NRF_LOG_INFO("New device commissioned or rejoined (short: 0x%04hx)", dev_annce_params->device_short_addr);
zb_err_code = ZB_SCHEDULE_APP_ALARM_CANCEL(steering_finished, ZB_ALARM_ANY_PARAM);
if (zb_err_code == RET_OK)
{
NRF_LOG_INFO("Joining period extended.");
zb_err_code = ZB_SCHEDULE_APP_ALARM(steering_finished, 0, ZB_TIME_ONE_SECOND * ZB_ZGP_DEFAULT_COMMISSIONING_WINDOW);
ZB_ERROR_CHECK(zb_err_code);
}
}
break;
default:
/* Call default signal handler. */
ZB_ERROR_CHECK(zigbee_default_signal_handler(bufid));
break;
}
if (bufid)
{
zb_buf_free(bufid);
}
}
#if (APP_BULB_USE_WS2812_LED_CHAIN)
static void ws2812_refresh_timer_timeout_handler(void *p_context)
{
m_ws2812_refresh_request = true;
}
#endif
/**@brief Function for application main entry.
*/
int main(void)
{
zb_ret_t zb_err_code;
zb_ieee_addr_t ieee_addr;
/* Initialize timer, logging system and GPIOs. */
timer_init();
log_init();
leds_buttons_init();
#if (APP_BULB_USE_WS2812_LED_CHAIN)
ret_code_t ret_code;
ret_code = drv_ws2812_init(LED_CHAIN_DOUT_PIN);
APP_ERROR_CHECK(ret_code);
#endif
/* Set Zigbee stack logging level and traffic dump subsystem. */
ZB_SET_TRACE_LEVEL(ZIGBEE_TRACE_LEVEL);
ZB_SET_TRACE_MASK(ZIGBEE_TRACE_MASK);
ZB_SET_TRAF_DUMP_OFF();
/* Initialize Zigbee stack. */
ZB_INIT("led_bulb");
/* Set device address to the value read from FICR registers. */
zb_osif_get_ieee_eui64(ieee_addr);
zb_set_long_address(ieee_addr);
/* Set static long IEEE address. */
zb_set_network_coordinator_role(IEEE_CHANNEL_MASK);
zb_set_max_children(MAX_CHILDREN);
zigbee_erase_persistent_storage(ERASE_PERSISTENT_CONFIG);
// zb_set_keepalive_timeout(ZB_MILLISECONDS_TO_BEACON_INTERVAL(3000));
/* Initialize application context structure. */
UNUSED_RETURN_VALUE(ZB_MEMSET(&m_dev_ctx, 0, sizeof(m_dev_ctx)));
/* Register callback for handling ZCL commands. */
ZB_ZCL_REGISTER_DEVICE_CB(zcl_device_cb);
/* Register dimmer switch device context (endpoints). */
ZB_AF_REGISTER_DEVICE_CTX(&dimmable_light_ctx);
bulb_clusters_attr_init();
level_control_set_value(m_dev_ctx.level_control_attr.current_level);
#if (APP_BULB_USE_WS2812_LED_CHAIN)
/* Let's have a timer triggering refresh of led state */
ret_code = app_timer_create(&m_ws2812_refresh_timer, APP_TIMER_MODE_REPEATED,
ws2812_refresh_timer_timeout_handler);
APP_ERROR_CHECK(ret_code);
ret_code = app_timer_start(m_ws2812_refresh_timer, APP_TIMER_TICKS(5000U), NULL);
APP_ERROR_CHECK(ret_code);
#endif
/** Start Zigbee Stack. */
zb_err_code = zboss_start_no_autostart();
ZB_ERROR_CHECK(zb_err_code);
while(1)
{
zboss_main_loop_iteration();
UNUSED_RETURN_VALUE(NRF_LOG_PROCESS());
#if (APP_BULB_USE_WS2812_LED_CHAIN)
if (m_ws2812_refresh_request)
{
if (drv_ws2812_display(NULL, NULL) == NRF_SUCCESS)
{
m_ws2812_refresh_request = false;
}
}
#endif
}
}
/**
* @}
*/
do I have to change anything in the light switch code?