mesh_light_lightness_server.c

/*
* Copyright 2016-2022, Cypress Semiconductor Corporation (an Infineon company) or
* an affiliate of Cypress Semiconductor Corporation.  All rights reserved.
*
* This software, including source code, documentation and related
* materials ("Software") is owned by Cypress Semiconductor Corporation
* or one of its affiliates ("Cypress") and is protected by and subject to
* worldwide patent protection (United States and foreign),
* United States copyright laws and international treaty provisions.
* Therefore, you may use this Software only as provided in the license
* agreement accompanying the software package from which you
* obtained this Software ("EULA").
* If no EULA applies, Cypress hereby grants you a personal, non-exclusive,
* non-transferable license to copy, modify, and compile the Software
* source code solely for use in connection with Cypress's
* integrated circuit products.  Any reproduction, modification, translation,
* compilation, or representation of this Software except as specified
* above is prohibited without the express written permission of Cypress.
*
* Disclaimer: THIS SOFTWARE IS PROVIDED AS-IS, WITH NO WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, NONINFRINGEMENT, IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. Cypress
* reserves the right to make changes to the Software without notice. Cypress
* does not assume any liability arising out of the application or use of the
* Software or any product or circuit described in the Software. Cypress does
* not authorize its products for use in any products where a malfunction or
* failure of the Cypress product may reasonably be expected to result in
* significant property damage, injury or death ("High Risk Product"). By
* including Cypress's product in a High Risk Product, the manufacturer
* of such system or application assumes all risk of such use and in doing
* so agrees to indemnify Cypress against all liability.
*/

/** @file
 *
 * This file shows how to create a device which publishes Generic Power Level Server.
 *
 */
#include "wiced_bt_ble.h"
#include "wiced_bt_gatt.h"
#include "wiced_bt_mesh_models.h"
#include "wiced_bt_trace.h"
#include "wiced_bt_mesh_app.h"

#ifdef HCI_CONTROL
#include "wiced_transport.h"
#include "hci_control_api.h"
#endif

#include "wiced_bt_cfg.h"
extern wiced_bt_cfg_settings_t wiced_bt_cfg_settings;

/******************************************************
 *          Constants
 ******************************************************/
#define MESH_PID                0x300F
#define MESH_VID                0x0002

#define MESH_LIGHT_LIGHTNESS_DEFAULT   0
#define MESH_LIGHT_LIGHTNESS_MIN       1
#define MESH_LIGHT_LIGHTNESS_MAX       0xFFFF

/******************************************************
 *          Structures
 ******************************************************/

/******************************************************
 *          Function Prototypes
 ******************************************************/
static void mesh_app_init(wiced_bool_t is_provisioned);
static void mesh_app_message_handler(uint8_t element_idx, uint16_t event, void *p_data);
static void mesh_light_lightness_process_status(uint8_t element_idx, wiced_bt_mesh_light_lightness_status_t *p_status);

#ifdef HCI_CONTROL
static void mesh_light_lightness_hci_event_send_status(uint8_t element_idx, wiced_bt_mesh_light_lightness_status_t* p_data);
#endif

/******************************************************
 *          Variables Definitions
 ******************************************************/
uint8_t mesh_mfr_name[WICED_BT_MESH_PROPERTY_LEN_DEVICE_MANUFACTURER_NAME] = { 'C', 'y', 'p', 'r', 'e', 's', 's', 0 };
uint8_t mesh_model_num[WICED_BT_MESH_PROPERTY_LEN_DEVICE_MODEL_NUMBER]     = { '1', '2', '3', '4', 0, 0, 0, 0 };
uint8_t mesh_system_id[8]                                                  = { 0xbb, 0xb8, 0xa1, 0x80, 0x5f, 0x9f, 0x91, 0x71 };

wiced_bt_mesh_core_config_model_t   mesh_element1_models[] =
{
    WICED_BT_MESH_DEVICE,
    WICED_BT_MESH_MODEL_LIGHT_LIGHTNESS_SERVER,
};

#define MESH_APP_NUM_MODELS  (sizeof(mesh_element1_models) / sizeof(wiced_bt_mesh_core_config_model_t))

#define MESH_LIGHT_LIGHTNESS_SERVER_ELEMENT_INDEX   0

wiced_bt_mesh_core_config_element_t mesh_elements[] =
{
    {
        .location = MESH_ELEM_LOC_MAIN,                                 // location description as defined in the GATT Bluetooth Namespace Descriptors section of the Bluetooth SIG Assigned Numbers
        .default_transition_time = MESH_DEFAULT_TRANSITION_TIME_IN_MS,  // Default transition time for models of the element in milliseconds
        .onpowerup_state = WICED_BT_MESH_ON_POWER_UP_STATE_RESTORE,     // Default element behavior on power up
        .default_level = MESH_LIGHT_LIGHTNESS_DEFAULT,                  // Default value of the variable controlled on this element (for example power, lightness, temperature, hue...)
        .range_min = MESH_LIGHT_LIGHTNESS_MIN,                          // Minimum value of the variable controlled on this element (for example power, lightness, temperature, hue...)
        .range_max = MESH_LIGHT_LIGHTNESS_MAX,                          // Maximum value of the variable controlled on this element (for example power, lightness, temperature, hue...)
        .move_rollover = 0,                                             // If true when level gets to range_max during move operation, it switches to min, otherwise move stops.
        .properties_num = 0,                                            // Number of properties in the array models
        .properties = NULL,                                             // Array of properties in the element.
        .sensors_num = 0,                                               // Number of sensors in the sensor array
        .sensors = NULL,                                                // Array of sensors of that element
        .models_num = MESH_APP_NUM_MODELS,                              // Number of models in the array models
        .models = mesh_element1_models,                                 // Array of models located in that element. Model data is defined by structure wiced_bt_mesh_core_config_model_t
    },
};

wiced_bt_mesh_core_config_t  mesh_config =
{
    .company_id         = MESH_COMPANY_ID_CYPRESS,                  // Company identifier assigned by the Bluetooth SIG
    .product_id         = MESH_PID,                                 // Vendor-assigned product identifier
    .vendor_id          = MESH_VID,                                 // Vendor-assigned product version identifier
#if defined(LOW_POWER_NODE) && (LOW_POWER_NODE == 1)
    .features           = WICED_BT_MESH_CORE_FEATURE_BIT_LOW_POWER, // A bit field indicating the device features. In Low Power mode no Relay, no Proxy and no Friend
    .friend_cfg         =                                           // Empty Configuration of the Friend Feature
    {
        .receive_window = 0,                                        // Receive Window value in milliseconds supported by the Friend node.
        .cache_buf_len  = 0,                                        // Length of the buffer for the cache
        .max_lpn_num    = 0                                         // Max number of Low Power Nodes with established friendship. Must be > 0 if Friend feature is supported.
    },
    .low_power          =                                           // Configuration of the Low Power Feature
    {
        .rssi_factor           = 2,                                 // contribution of the RSSI measured by the Friend node used in Friend Offer Delay calculations.
        .receive_window_factor = 2,                                 // contribution of the supported Receive Window used in Friend Offer Delay calculations.
        .min_cache_size_log    = 3,                                 // minimum number of messages that the Friend node can store in its Friend Cache.
        .receive_delay         = 100,                               // Receive delay in 1 ms units to be requested by the Low Power node.
        .poll_timeout          = 36000                              // Poll timeout in 100ms units to be requested by the Low Power node.
    },
#else
    .features = WICED_BT_MESH_CORE_FEATURE_BIT_FRIEND | WICED_BT_MESH_CORE_FEATURE_BIT_RELAY | WICED_BT_MESH_CORE_FEATURE_BIT_GATT_PROXY_SERVER,   // Supports Friend, Relay and GATT Proxy
    .friend_cfg         =                                           // Configuration of the Friend Feature(Receive Window in Ms, messages cache)
    {
        .receive_window        = 20,
        .cache_buf_len         = 300,                               // Length of the buffer for the cache
        .max_lpn_num           = 4                                  // Max number of Low Power Nodes with established friendship. Must be > 0 if Friend feature is supported.
    },
    .low_power          =                                           // Configuration of the Low Power Feature
    {
        .rssi_factor           = 0,                                 // contribution of the RSSI measured by the Friend node used in Friend Offer Delay calculations.
        .receive_window_factor = 0,                                 // contribution of the supported Receive Window used in Friend Offer Delay calculations.
        .min_cache_size_log    = 0,                                 // minimum number of messages that the Friend node can store in its Friend Cache.
        .receive_delay         = 0,                                 // Receive delay in 1 ms units to be requested by the Low Power node.
        .poll_timeout          = 0                                  // Poll timeout in 100ms units to be requested by the Low Power node.
    },
#endif
    .gatt_client_only          = WICED_FALSE,                       // Can connect to mesh over GATT or ADV
    .elements_num  = (uint8_t)(sizeof(mesh_elements) / sizeof(mesh_elements[0])),   // number of elements on this device
    .elements      = mesh_elements                                  // Array of elements for this device
};

/*
 * Mesh application library will call into application functions if provided by the application.
 */
wiced_bt_mesh_app_func_table_t wiced_bt_mesh_app_func_table =
{
    mesh_app_init,          // application initialization
    NULL,                   // Default SDK platform button processing
    NULL,                   // GATT connection status
    NULL,                   // attention processing
    NULL,                   // notify period set
    NULL,                   // WICED HCI command
    NULL,                   // LPN sleep
    NULL                    // factory reset
};

/******************************************************
 *               Function Definitions
 ******************************************************/
void mesh_app_init(wiced_bool_t is_provisioned)
{
    wiced_bt_cfg_settings.device_name = (uint8_t *)"Dimmable Light";
    wiced_bt_cfg_settings.gatt_cfg.appearance = APPEARANCE_LIGHT_CEILING;
    // Adv Data is fixed. Spec allows to put URI, Name, Appearance and Tx Power in the Scan Response Data.
    if (!is_provisioned)
    {
        wiced_bt_ble_advert_elem_t  adv_elem[3];
        uint8_t                     buf[2];
        uint8_t                     num_elem = 0;
        adv_elem[num_elem].advert_type = BTM_BLE_ADVERT_TYPE_NAME_COMPLETE;
        adv_elem[num_elem].len = (uint16_t)strlen((const char*)wiced_bt_cfg_settings.device_name);
        adv_elem[num_elem].p_data = wiced_bt_cfg_settings.device_name;
        num_elem++;

        adv_elem[num_elem].advert_type = BTM_BLE_ADVERT_TYPE_APPEARANCE;
        adv_elem[num_elem].len = 2;
        buf[0] = (uint8_t)wiced_bt_cfg_settings.gatt_cfg.appearance;
        buf[1] = (uint8_t)(wiced_bt_cfg_settings.gatt_cfg.appearance >> 8);
        adv_elem[num_elem].p_data = buf;
        num_elem++;

        wiced_bt_mesh_set_raw_scan_response_data(num_elem, adv_elem);
    }

    wiced_bt_mesh_model_light_lightness_server_init(MESH_LIGHT_LIGHTNESS_SERVER_ELEMENT_INDEX, mesh_app_message_handler, is_provisioned);
}

/*
 * Process event received from the models library.
 */
void mesh_app_message_handler(uint8_t element_idx, uint16_t event, void *p_data)
{
    switch (event)
    {
    case WICED_BT_MESH_LIGHT_LIGHTNESS_STATUS:
        mesh_light_lightness_process_status(element_idx, (wiced_bt_mesh_light_lightness_status_t *)p_data);
        break;

    default:
        WICED_BT_TRACE("unknown\n");
        break;
    }
}

/*
 * Command from the level client is received to set the new level
 */
void mesh_light_lightness_process_status(uint8_t element_idx, wiced_bt_mesh_light_lightness_status_t *p_status)
{
    WICED_BT_TRACE("mesh light srv set level element:%d actual/target:%d/%d linear/target:%d/%d remaining_time:%d\n", element_idx,
            p_status->lightness_actual_present, p_status->lightness_linear_present,
            p_status->lightness_actual_target, p_status->lightness_linear_target, p_status->remaining_time);

#ifdef HCI_CONTROL
    mesh_light_lightness_hci_event_send_status(element_idx, p_status);
#endif

    // ToDo: Set HW based on the requested present level
}


/*
 * Send Light Lightness status message to the Client
 */
void mesh_light_lightness_server_send_status(uint8_t element_idx, uint16_t value)
{
    wiced_bt_mesh_model_light_lightness_linear_changed(element_idx, value);
}

#ifdef HCI_CONTROL
/*
 * Send Light Lightness Status event over transport
 */
void mesh_light_lightness_hci_event_send_status(uint8_t element_idx, wiced_bt_mesh_light_lightness_status_t* p_data)
{
    wiced_bt_mesh_hci_event_t* p_hci_event = wiced_bt_mesh_alloc_hci_event(element_idx);
    if (p_hci_event)
    {
        uint8_t* p = p_hci_event->data;

        UINT16_TO_STREAM(p, p_data->lightness_actual_present);
        UINT16_TO_STREAM(p, p_data->lightness_actual_target);
        UINT32_TO_STREAM(p, p_data->remaining_time);

        mesh_transport_send_data(HCI_CONTROL_MESH_EVENT_LIGHT_LIGHTNESS_STATUS, (uint8_t*)p_hci_event, (uint16_t)(p - (uint8_t*)p_hci_event));
    }
}
#endif
	/*
	* Copyright 2016-2022, Cypress Semiconductor Corporation (an Infineon company) or
	* an affiliate of Cypress Semiconductor Corporation. All rights reserved.
	*
	* This software, including source code, documentation and related
	* materials ("Software") is owned by Cypress Semiconductor Corporation
	* or one of its affiliates ("Cypress") and is protected by and subject to
	* worldwide patent protection (United States and foreign),
	* United States copyright laws and international treaty provisions.
	* Therefore, you may use this Software only as provided in the license
	* agreement accompanying the software package from which you
	* obtained this Software ("EULA").
	* If no EULA applies, Cypress hereby grants you a personal, non-exclusive,
	* non-transferable license to copy, modify, and compile the Software
	* source code solely for use in connection with Cypress's
	* integrated circuit products. Any reproduction, modification, translation,
	* compilation, or representation of this Software except as specified
	* above is prohibited without the express written permission of Cypress.
	*
	* Disclaimer: THIS SOFTWARE IS PROVIDED AS-IS, WITH NO WARRANTY OF ANY KIND,
	* EXPRESS OR IMPLIED, INCLUDING, BUT NOT LIMITED TO, NONINFRINGEMENT, IMPLIED
	* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. Cypress
	* reserves the right to make changes to the Software without notice. Cypress
	* does not assume any liability arising out of the application or use of the
	* Software or any product or circuit described in the Software. Cypress does
	* not authorize its products for use in any products where a malfunction or
	* failure of the Cypress product may reasonably be expected to result in
	* significant property damage, injury or death ("High Risk Product"). By
	* including Cypress's product in a High Risk Product, the manufacturer
	* of such system or application assumes all risk of such use and in doing
	* so agrees to indemnify Cypress against all liability.
	*/

	/** @file
	*
	* This file shows how to create a device which publishes Generic Power Level Server.
	*
	*/
	#include "wiced_bt_ble.h"
	#include "wiced_bt_gatt.h"
	#include "wiced_bt_mesh_models.h"
	#include "wiced_bt_trace.h"
	#include "wiced_bt_mesh_app.h"

	#ifdef HCI_CONTROL
	#include "wiced_transport.h"
	#include "hci_control_api.h"
	#endif

	#include "wiced_bt_cfg.h"
	extern wiced_bt_cfg_settings_t wiced_bt_cfg_settings;

	/******************************************************
	* Constants
	******************************************************/
	#define MESH_PID 0x300F
	#define MESH_VID 0x0002

	#define MESH_LIGHT_LIGHTNESS_DEFAULT 0
	#define MESH_LIGHT_LIGHTNESS_MIN 1
	#define MESH_LIGHT_LIGHTNESS_MAX 0xFFFF

	/******************************************************
	* Structures
	******************************************************/

	/******************************************************
	* Function Prototypes
	******************************************************/
	static void mesh_app_init(wiced_bool_t is_provisioned);
	static void mesh_app_message_handler(uint8_t element_idx, uint16_t event, void *p_data);
	static void mesh_light_lightness_process_status(uint8_t element_idx, wiced_bt_mesh_light_lightness_status_t *p_status);

	#ifdef HCI_CONTROL
	static void mesh_light_lightness_hci_event_send_status(uint8_t element_idx, wiced_bt_mesh_light_lightness_status_t* p_data);
	#endif

	/******************************************************
	* Variables Definitions
	******************************************************/
	uint8_t mesh_mfr_name[WICED_BT_MESH_PROPERTY_LEN_DEVICE_MANUFACTURER_NAME] = { 'C', 'y', 'p', 'r', 'e', 's', 's', 0 };
	uint8_t mesh_model_num[WICED_BT_MESH_PROPERTY_LEN_DEVICE_MODEL_NUMBER] = { '1', '2', '3', '4', 0, 0, 0, 0 };
	uint8_t mesh_system_id[8] = { 0xbb, 0xb8, 0xa1, 0x80, 0x5f, 0x9f, 0x91, 0x71 };

	wiced_bt_mesh_core_config_model_t mesh_element1_models[] =
	{
	WICED_BT_MESH_DEVICE,
	WICED_BT_MESH_MODEL_LIGHT_LIGHTNESS_SERVER,
	};

	#define MESH_APP_NUM_MODELS (sizeof(mesh_element1_models) / sizeof(wiced_bt_mesh_core_config_model_t))

	#define MESH_LIGHT_LIGHTNESS_SERVER_ELEMENT_INDEX 0

	wiced_bt_mesh_core_config_element_t mesh_elements[] =
	{
	{
	.location = MESH_ELEM_LOC_MAIN, // location description as defined in the GATT Bluetooth Namespace Descriptors section of the Bluetooth SIG Assigned Numbers
	.default_transition_time = MESH_DEFAULT_TRANSITION_TIME_IN_MS, // Default transition time for models of the element in milliseconds
	.onpowerup_state = WICED_BT_MESH_ON_POWER_UP_STATE_RESTORE, // Default element behavior on power up
	.default_level = MESH_LIGHT_LIGHTNESS_DEFAULT, // Default value of the variable controlled on this element (for example power, lightness, temperature, hue...)
	.range_min = MESH_LIGHT_LIGHTNESS_MIN, // Minimum value of the variable controlled on this element (for example power, lightness, temperature, hue...)
	.range_max = MESH_LIGHT_LIGHTNESS_MAX, // Maximum value of the variable controlled on this element (for example power, lightness, temperature, hue...)
	.move_rollover = 0, // If true when level gets to range_max during move operation, it switches to min, otherwise move stops.
	.properties_num = 0, // Number of properties in the array models
	.properties = NULL, // Array of properties in the element.
	.sensors_num = 0, // Number of sensors in the sensor array
	.sensors = NULL, // Array of sensors of that element
	.models_num = MESH_APP_NUM_MODELS, // Number of models in the array models
	.models = mesh_element1_models, // Array of models located in that element. Model data is defined by structure wiced_bt_mesh_core_config_model_t
	},
	};

	wiced_bt_mesh_core_config_t mesh_config =
	{
	.company_id = MESH_COMPANY_ID_CYPRESS, // Company identifier assigned by the Bluetooth SIG
	.product_id = MESH_PID, // Vendor-assigned product identifier
	.vendor_id = MESH_VID, // Vendor-assigned product version identifier
	#if defined(LOW_POWER_NODE) && (LOW_POWER_NODE == 1)
	.features = WICED_BT_MESH_CORE_FEATURE_BIT_LOW_POWER, // A bit field indicating the device features. In Low Power mode no Relay, no Proxy and no Friend
	.friend_cfg = // Empty Configuration of the Friend Feature
	{
	.receive_window = 0, // Receive Window value in milliseconds supported by the Friend node.
	.cache_buf_len = 0, // Length of the buffer for the cache
	.max_lpn_num = 0 // Max number of Low Power Nodes with established friendship. Must be > 0 if Friend feature is supported.
	},
	.low_power = // Configuration of the Low Power Feature
	{
	.rssi_factor = 2, // contribution of the RSSI measured by the Friend node used in Friend Offer Delay calculations.
	.receive_window_factor = 2, // contribution of the supported Receive Window used in Friend Offer Delay calculations.
	.min_cache_size_log = 3, // minimum number of messages that the Friend node can store in its Friend Cache.
	.receive_delay = 100, // Receive delay in 1 ms units to be requested by the Low Power node.
	.poll_timeout = 36000 // Poll timeout in 100ms units to be requested by the Low Power node.
	},
	#else
	.features = WICED_BT_MESH_CORE_FEATURE_BIT_FRIEND \| WICED_BT_MESH_CORE_FEATURE_BIT_RELAY \| WICED_BT_MESH_CORE_FEATURE_BIT_GATT_PROXY_SERVER, // Supports Friend, Relay and GATT Proxy
	.friend_cfg = // Configuration of the Friend Feature(Receive Window in Ms, messages cache)
	{
	.receive_window = 20,
	.cache_buf_len = 300, // Length of the buffer for the cache
	.max_lpn_num = 4 // Max number of Low Power Nodes with established friendship. Must be > 0 if Friend feature is supported.
	},
	.low_power = // Configuration of the Low Power Feature
	{
	.rssi_factor = 0, // contribution of the RSSI measured by the Friend node used in Friend Offer Delay calculations.
	.receive_window_factor = 0, // contribution of the supported Receive Window used in Friend Offer Delay calculations.
	.min_cache_size_log = 0, // minimum number of messages that the Friend node can store in its Friend Cache.
	.receive_delay = 0, // Receive delay in 1 ms units to be requested by the Low Power node.
	.poll_timeout = 0 // Poll timeout in 100ms units to be requested by the Low Power node.
	},
	#endif
	.gatt_client_only = WICED_FALSE, // Can connect to mesh over GATT or ADV
	.elements_num = (uint8_t)(sizeof(mesh_elements) / sizeof(mesh_elements[0])), // number of elements on this device
	.elements = mesh_elements // Array of elements for this device
	};

	/*
	* Mesh application library will call into application functions if provided by the application.
	*/
	wiced_bt_mesh_app_func_table_t wiced_bt_mesh_app_func_table =
	{
	mesh_app_init, // application initialization
	NULL, // Default SDK platform button processing
	NULL, // GATT connection status
	NULL, // attention processing
	NULL, // notify period set
	NULL, // WICED HCI command
	NULL, // LPN sleep
	NULL // factory reset
	};

	/******************************************************
	* Function Definitions
	******************************************************/
	void mesh_app_init(wiced_bool_t is_provisioned)
	{
	wiced_bt_cfg_settings.device_name = (uint8_t *)"Dimmable Light";
	wiced_bt_cfg_settings.gatt_cfg.appearance = APPEARANCE_LIGHT_CEILING;
	// Adv Data is fixed. Spec allows to put URI, Name, Appearance and Tx Power in the Scan Response Data.
	if (!is_provisioned)
	{
	wiced_bt_ble_advert_elem_t adv_elem[3];
	uint8_t buf[2];
	uint8_t num_elem = 0;
	adv_elem[num_elem].advert_type = BTM_BLE_ADVERT_TYPE_NAME_COMPLETE;
	adv_elem[num_elem].len = (uint16_t)strlen((const char*)wiced_bt_cfg_settings.device_name);
	adv_elem[num_elem].p_data = wiced_bt_cfg_settings.device_name;
	num_elem++;

	adv_elem[num_elem].advert_type = BTM_BLE_ADVERT_TYPE_APPEARANCE;
	adv_elem[num_elem].len = 2;
	buf[0] = (uint8_t)wiced_bt_cfg_settings.gatt_cfg.appearance;
	buf[1] = (uint8_t)(wiced_bt_cfg_settings.gatt_cfg.appearance >> 8);
	adv_elem[num_elem].p_data = buf;
	num_elem++;

	wiced_bt_mesh_set_raw_scan_response_data(num_elem, adv_elem);
	}

	wiced_bt_mesh_model_light_lightness_server_init(MESH_LIGHT_LIGHTNESS_SERVER_ELEMENT_INDEX, mesh_app_message_handler, is_provisioned);
	}

	/*
	* Process event received from the models library.
	*/
	void mesh_app_message_handler(uint8_t element_idx, uint16_t event, void *p_data)
	{
	switch (event)
	{
	case WICED_BT_MESH_LIGHT_LIGHTNESS_STATUS:
	mesh_light_lightness_process_status(element_idx, (wiced_bt_mesh_light_lightness_status_t *)p_data);
	break;

	default:
	WICED_BT_TRACE("unknown\n");
	break;
	}
	}

	/*
	* Command from the level client is received to set the new level
	*/
	void mesh_light_lightness_process_status(uint8_t element_idx, wiced_bt_mesh_light_lightness_status_t *p_status)
	{
	WICED_BT_TRACE("mesh light srv set level element:%d actual/target:%d/%d linear/target:%d/%d remaining_time:%d\n", element_idx,
	p_status->lightness_actual_present, p_status->lightness_linear_present,
	p_status->lightness_actual_target, p_status->lightness_linear_target, p_status->remaining_time);

	#ifdef HCI_CONTROL
	mesh_light_lightness_hci_event_send_status(element_idx, p_status);
	#endif

	// ToDo: Set HW based on the requested present level
	}


	/*
	* Send Light Lightness status message to the Client
	*/
	void mesh_light_lightness_server_send_status(uint8_t element_idx, uint16_t value)
	{
	wiced_bt_mesh_model_light_lightness_linear_changed(element_idx, value);
	}

	#ifdef HCI_CONTROL
	/*
	* Send Light Lightness Status event over transport
	*/
	void mesh_light_lightness_hci_event_send_status(uint8_t element_idx, wiced_bt_mesh_light_lightness_status_t* p_data)
	{
	wiced_bt_mesh_hci_event_t* p_hci_event = wiced_bt_mesh_alloc_hci_event(element_idx);
	if (p_hci_event)
	{
	uint8_t* p = p_hci_event->data;

	UINT16_TO_STREAM(p, p_data->lightness_actual_present);
	UINT16_TO_STREAM(p, p_data->lightness_actual_target);
	UINT32_TO_STREAM(p, p_data->remaining_time);

	mesh_transport_send_data(HCI_CONTROL_MESH_EVENT_LIGHT_LIGHTNESS_STATUS, (uint8_t)p_hci_event, (uint16_t)(p - (uint8_t)p_hci_event));
	}
	}
	#endif