Mesh Models Library API

Mesh Models library of the AIROC BTSDK provide a simple method for an application to use various Mesh models defined in the Bluetooth Mesh Model specification. More...

Data Structures
struct	mesh_battery_event_t
	Mesh Battery Status Event used to report battery state to the client device. More...
struct	wiced_bt_mesh_location_global_data_t
	Global Location Data structure exchanged between the application Generic Location Model. More...
struct	wiced_bt_mesh_location_local_data_t
	Local Location Data structure exchanged between the application Generic Location Model. More...
struct	wiced_bt_mesh_onoff_set_data_t
	OnOff Set Data structure exchanged between the application Generic OnOff Model. More...
struct	wiced_bt_mesh_onoff_status_data_t
	OnOff Status Data structure exchanged between the application and Generic OnOff Model. More...
struct	wiced_bt_mesh_level_set_level_t
	Level Set Data structure exchanged between the application and the Generic Level Model. More...
struct	wiced_bt_mesh_level_set_delta_t
	Delta Set Data structure exchanged between the application and the Generic Level Model. More...
struct	wiced_bt_mesh_level_set_move_t
	Move Set Data structure exchanged between the application and the Generic Level Model. More...
struct	wiced_bt_mesh_level_status_data_t
	Level Status Data structure exchanged between the application and Generic Level Model. More...
struct	wiced_bt_mesh_default_transition_time_data_t
	Default Transition Time Data structure exchanged between an application and the Generic Default Transition Time Model. More...
struct	wiced_bt_mesh_power_onoff_data_t
	Power OnOff Data structure exchanged between an application and the Power OnOff Model. More...
struct	wiced_bt_mesh_power_level_status_data_t
	Power Level Status Data structure exchanged between the application and Generic Power Level Model. More...
struct	wiced_bt_mesh_power_level_last_data_t
	Power Level Last Status Data structure exchanged between the application and Generic Power Level Model. More...
struct	wiced_bt_mesh_power_default_data_t
	Power Level Default Status Data structure exchanged between the application and Generic Power Level Model. More...
struct	wiced_bt_mesh_power_level_range_set_data_t
	Power Level Set Range Data structure exchanged between the application and Generic Power Level Model. More...
struct	wiced_bt_mesh_power_range_status_data_t
	Power Range Status Data structure exchanged between the application and Generic Power Level Model. More...
struct	wiced_bt_mesh_power_level_set_level_t
	Level Set Data structure exchanged between the application and the Generic Power Level Model. More...
struct	wiced_bt_mesh_light_lightness_status_data_t
	Light Lightness Status Data structure exchanged between the application and Light Lightness Model. More...
struct	wiced_bt_mesh_light_lightness_status_t
struct	wiced_bt_mesh_light_lightness_set_t
	Light Lightness Set Data structure exchanged between the application and the models Light Lightness Server library. More...
struct	wiced_bt_mesh_light_lightness_actual_set_t
	Light Lightness Actual Set Data structure exchanged between the application and the models Light Lightness Client library. More...
struct	wiced_bt_mesh_light_lightness_linear_set_t
	Light Lightness Linear Set Data structure exchanged between the application and the models Light Lightness Client library. More...
struct	wiced_bt_mesh_light_lightness_last_data_t
	Light Lightness Last Status Data structure exchanged between the application and Light Lightness Model. More...
struct	wiced_bt_mesh_light_lightness_default_data_t
	Lightness Default Status Data structure exchanged between the application and Light Lightness Model. More...
struct	wiced_bt_mesh_light_lightness_range_set_data_t
	Lightness Range Status Data structure exchanged between the application and Generic Power Level Model. More...
struct	wiced_bt_mesh_light_lightness_range_status_data_t
	Lightness Range Status Data structure exchanged between the application and Light Lightness Model. More...
struct	wiced_bt_mesh_properties_get_data_t
	Properties Get Data for Generic Property Models. More...
struct	wiced_bt_mesh_property_get_data_t
	Property Get Data for Generic Property Models. More...
struct	wiced_bt_mesh_properties_status_data_t
	Properties Status Data for Generic Property Models. More...
struct	wiced_bt_mesh_property_set_data_t
	Property Set Data structure exchanged between the application Generic User Property Models. More...
struct	wiced_bt_mesh_property_status_data_t
	Property Status Data structure exchanged between the application Generic User Property Models. More...
struct	wiced_bt_mesh_light_ctl_data_t
	Data structure representing the state of Light Color Temperature device. More...
struct	wiced_bt_mesh_light_ctl_status_data_t
	Light CTL Status Data structure exchanged between the application and the models library. More...
struct	wiced_bt_mesh_light_ctl_set_t
	Light CTL Set Data structure exchanged between the application and the models library. More...
struct	wiced_bt_mesh_light_ctl_temperature_set_t
	Light Lightness Last Status Data structure exchanged between the application and Light Lightness Model. More...
struct	wiced_bt_mesh_light_ctl_default_data_t
	Lightness Default Status Data structure exchanged between the application and Light Lightness Model. More...
struct	wiced_bt_mesh_light_ctl_temperature_range_status_data_t
	Temperature Range Status Data structure exchanged between the application and Light CTL Temperature Model. More...
struct	wiced_bt_mesh_light_ctl_temperature_range_data_t
	Temperature Range Set Data structure exchanged between the application and Light CTL Temperature Model. More...
struct	wiced_bt_mesh_light_delta_uv_set_level_t
	Light Lightness Set Data structure exchanged between the application and the models library. More...
struct	wiced_bt_mesh_light_delta_uv_last_data_t
	Light Lightness Last Status Data structure exchanged between the application and Light Lightness Model. More...
struct	wiced_bt_mesh_light_delta_uv_default_data_t
	Lightness Default Status Data structure exchanged between the application and Light Lightness Model. More...
struct	wiced_bt_mesh_light_delta_uv_range_data_t
	Lightness Range Status Data structure exchanged between the application and Generic Power Level Model. More...
struct	wiced_bt_mesh_light_hsl_data_t
	Data structure representing the state of Light HSL device. More...
struct	wiced_bt_mesh_light_hsl_status_data_t
	Light HSL Status Data structure exchanged between the application and the models library. More...
struct	wiced_bt_mesh_light_hsl_target_status_data_t
	Light HSL Target Status Data structure exchanged between the application and the models library. More...
struct	wiced_bt_mesh_light_hsl_set_t
	Light HSL Set Data structure exchanged between the application and the models library. More...
struct	wiced_bt_mesh_light_hsl_hue_set_t
	Light HSL Hue Set Data structure exchanged between the application and the models library. More...
struct	wiced_bt_mesh_light_hsl_saturation_set_t
	Light HSL Saturation Set Data structure exchanged between the application and the models library. More...
struct	wiced_bt_mesh_light_hsl_default_data_t
	Light HSL Set Default Data structure exchanged between the application and the models library. More...
struct	wiced_bt_mesh_light_hsl_hue_status_data_t
	Light HSL Hue status Data structure exchanged between the application and Light HSL Model. More...
struct	wiced_bt_mesh_light_hsl_saturation_status_data_t
	Light HSL Saturation Status Data structure exchanged between the application and Light HSL Model. More...
struct	wiced_bt_mesh_light_hsl_range_set_data_t
	Light HSL Range Set Data structure exchanged between the application and Light HSL Level Model. More...
struct	wiced_bt_mesh_light_hsl_range_status_data_t
	Light HSL Range Set Data structure exchanged between the application and Light HSL Level Model. More...
struct	wiced_bt_mesh_light_hsl_default_status_data_t
	Light HSL Range Default Status structure exchanged between the application and Light HSL Level Model. More...
struct	wiced_bt_mesh_light_xyl_data_t
	Data structure reppresenting the state of the Light xyL device. More...
struct	wiced_bt_mesh_light_xyl_xy_settings_t
	Light xyL x_y_default and range settings. More...
struct	wiced_bt_mesh_light_xyl_status_data_t
	Light xyL Status Data structure exchanged between the application and the models library. More...
struct	wiced_bt_mesh_light_xyl_target_status_data_t
	Light xyL Target Value Data structure exchanged between the application and the models library. More...
struct	wiced_bt_mesh_light_xyl_set_t
	Light xyL Set Data structure exchanged between the application and the models library. More...
struct	wiced_bt_mesh_light_xyl_default_data_t
	Light xyL Set Default Data structure exchanged between the application and the models library. More...
struct	wiced_bt_mesh_light_xyl_range_set_data_t
	Light xyL Range Set Data structure exchanged between the application and Light xyL Level Model. More...
struct	wiced_bt_mesh_light_xyl_range_status_data_t
	Light xyL Range Set Data structure exchanged between the application and Light xyL Level Model. More...
struct	wiced_bt_mesh_light_xyl_default_status_data_t
	Light xyL Range Default Status structure exchanged between the application and Light xyL Level Model. More...
struct	wiced_bt_mesh_light_lc_mode_set_data_t
	Light LC Mode Set data structure exchanged between the application and Light LC library. More...
struct	wiced_bt_mesh_light_lc_occupancy_mode_set_data_t
	Light LC Occupancy Mode Set data structure exchanged between the application and Light LC library. More...
struct	wiced_bt_mesh_light_lc_light_onoff_set_data_t
	Light LC Light OnOff Set data structure exchanged between the application and Light LC library. More...
struct	wiced_bt_mesh_light_lc_light_onoff_status_data_t
	Light LC Light OnOff Status data structure exchanged between the application and Light LC library. More...
struct	wiced_bt_mesh_light_lc_linear_out_set_data_t
	Light LC Light OnOff Set data structure exchanged between the application and Light LC library. More...
struct	wiced_bt_mesh_light_lc_property_get_data_t
	Light LC Property Get Data structure exchanged between the application and Light LC library. More...
struct	wiced_bt_mesh_light_lc_property_set_data_t
	Light LC Property Set Data structure exchanged between the application and Light LC library. More...
struct	wiced_bt_mesh_light_lc_property_status_data_t
	Light LC Property Status Data structure exchanged between the application and Light LC library. More...

Modules
	Mesh Battery Client
	The AIROC Mesh Battery Client module provides a way for an application to retrieve the battery status of a mesh node.
	Mesh Battery Server
	The AIROC Mesh Battery Server module provides a way for a client to retrieve the Battery status of this device.
	Mesh Default Transition Time Client
	The AIROC Mesh Default Transition Time Client module of the Mesh Models library provides a way for a controlling device to set default transition time for the devices in the mesh network.
	Mesh Default Transition Time Server
	The AIROC Mesh Default Transition Time Server module of the Mesh Models library provides implementation of the Default Transition Time model.
	Mesh Level Client
	The AIROC Mesh Level Client module of the Mesh Models library provides a way for an application to send Level commands (set, delta and move) to the server and optionally receive status information.
	Mesh Level Server
	The AIROC Mesh Level Server module of the Mesh Models library provides a way to implement functionality for the devices that can be controlled using a simple level slider, aka Level client.
	Mesh Light CTL Client
	The AIROC Mesh Light CTL Client module of the Mesh Models library provides a way for an application to configure and control color lights that support Color Temperature adjustments.
	Mesh Light CTL Server
	The AIROC Mesh Color Temperature Lightness (CTL) Server module provides a way for an application to implement a dimmable light device with color temperature support.
	Mesh Light HSL Client
	The AIROC Mesh Light HSL Client module of the Mesh Models library provides a way for an application to configure and control color lights that support Hue/Saturation control.
	Mesh Light HSL Server
	The AIROC Mesh Hue Saturation Lightness (HSL) Server module provides a way for an application to implement a dimmable light device with hue/saturation support.
	Mesh Light LC Client
	The AIROC Mesh Light LC Client module of the Mesh Models library provides a way for an application to configure and control lights that support LC control.
	Mesh Light LC Server
	The AIROC Mesh Light LC Server module provides a way for an application to implement a Light Control Server device which can be a client to a Sensor Server model and controls the Light Lightness Actual state via defined state bindings.
	Mesh Light Lightness Client
	The AIROC Mesh Light Lightness Client module of the Mesh Models library provides a way for an application to control brightness level of the Light Lightness Servers in the mesh network optionally receive status information.
	Mesh Light Lightness Server
	The AIROC Mesh Light Lightness Server module provides a way for an application to implement a dimmable light device which can be controlled specifically by setting the brightness, but also can be can be controlled using a Level slider (Generic Level client) and On/Off switch (Generic On/Off client).
	Mesh Light xyL Client
	The AIROC Mesh Light XYL Client module of the Mesh Models library provides a way for an application to configure and control color lights that support xyL control.
	Mesh Light xyL Server
	The AIROC Mesh Light xyL Server module provides a way for an application to implement a dimmable light device with x and y chromaticity coordinates support.
	Mesh Location Client
	The AIROC Mesh Location Client module provides a way for an application to configure the device with a Global or a Local Location data or to retrieve this data.
	Mesh Location Server
	The AIROC Mesh Location Server module provides a way for a client to set the Global and Local location for a mesh device.
	Mesh OnOff Client
	The AIROC Mesh On/Off Client module of the Mesh Models library provides a way for an application to send OnOff commands to the server and optionally receive status information.
	Mesh OnOff Server
	The AIROC Mesh OnOff Server module of the Mesh Models library provides a way to implement functionality for the devices that can be controlled using a simple On/Off switch, aka On/Off client.
	Mesh Power Level Client
	The AIROC Mesh Power Level Client module of the Mesh Models library provides a way for an application to control power level of the Power Level Servers in the mesh network optionally receive status information.
	Mesh Power Level Server
	The AIROC Mesh Power Level Server module of the Mesh Models library provides a way to implement functionality of a power plug type of a device that can be controlled using a Level slider (Generic Level client) and On/Off switch (Generic On/Off client).
	Mesh Power OnOff Client
	The AIROC Mesh Power On/Off Client module of the Mesh Models library provides a way for an application to manage the On Power Up behavior of other mesh devices.
	Mesh Power OnOff Server
	The AIROC Mesh Power OnOff Server module of the Mesh Models library provides a way to implement functionality for the devices that can be controlled using a simple On/Off switch, aka On/Off client.
	Mesh Scene Client
	The AIROC Mesh Scene Client module provides a way for an application to control Scene Servers in the mesh network.
	Mesh Scene Server
	The AIROC Mesh Scene Server module provides a way for an application to implement a functionality for the devices that support scene state.
	Mesh Scheduler Client
	The AIROC Mesh Scheduler Client module provides a way for an application to control Scheduler Servers in the mesh network.
	Mesh Scheduler Server
	The AIROC Mesh Scheduler Server module provides a way for an application to implement a functionality for the devices that support Scheduler.
	Mesh Sensor Client
	The AIROC Mesh Sensor Client module provides a way for an application to control Sensor Servers in the mesh network.
	Mesh Sensor Server
	The AIROC Mesh Sensor Server module provides a way for an application to implement a functionality for the devices that can be controlled using sensor.
	Mesh Time Client
	The AIROC Mesh Time Client module provides a way for an application to control Time Servers in the mesh network.
	Mesh Time Server
	The AIROC Mesh Time Server module provides a way for an application to implement a functionality for the devices that support time state.

Macros
#define	WICED_BT_BATTERY_LEVEL_UNKNOWN   0xff
	Current battery level unknown.
#define	WICED_BT_BATTERY_TIME_TO_DISCHARGE_UNKNOWN   0xffffff
	Time to full discharge unknown.
#define	WICED_BT_BATTERY_TIME_TO_CHARGE_UNKNOWN   0xffffff
	Time to full charge unknown.
#define	CONVERT_TOLERANCE_PERCENTAGE_TO_MESH(A)   ((4095 * A)/100)
#define	WICED_BT_MESH_ONOFF_MAX_RETRANSMIT_TIME   6
	Max retransmit duration for on/off set command in seconds.
#define	WICED_BT_MESH_TRANSITION_TIME_DEFAULT   0xFFFFFFFF
	Application or parent model should use default setting for transition time.
#define	WICED_BT_MESH_LEVEL_MAX_RETRANSMIT_TIME   6
	Max retransmit duration for level set command in seconds. More...
#define	WICED_BT_MESH_LEVEL_MOVE_MAX_TRANSITION_TIME   0x3E
	Max transition time for Move command.
#define	WICED_BT_MESH_PROPERTY_TYPE_CLIENT   0
	Property types defined in the Mesh Models specifications wiced_bt_mesh_property_type enumeration. More...
#define	WICED_BT_MESH_PROPERTY_TYPE_ADMIN   1
	Property type admin.
#define	WICED_BT_MESH_PROPERTY_TYPE_MANUFACTURER   2
	Property type manufacturer.
#define	WICED_BT_MESH_PROPERTY_TYPE_USER   3
	Property type user.

Typedefs
typedef uint8_t	wiced_bt_mesh_battery_presence_t
	Generic Battery Flags Presence State (see Battery Presence Flags)
typedef uint8_t	wiced_bt_mesh_battery_indicator_t
	Generic Battery Flags Indicator States (see Battery Indicator Flags)
typedef uint8_t	wiced_bt_mesh_battery_charging_t
	Generic Battery Flags Charging States (see Battery Charging Flags)
typedef uint8_t	wiced_bt_mesh_battery_servicibility_t
	Generic Battery Flags Serviceability States (see Battery Service Required Flags)
typedef uint16_t(*	wiced_model_scene_store_handler_t )(uint8_t element_idx, uint8_t *p_buffer, uint16_t buf_size)
	Scene store message handler. More...
typedef uint16_t(*	wiced_model_scene_recall_handler_t )(uint8_t element_idx, uint8_t *p_buffer, uint16_t buf_size, uint32_t transition_time, uint32_t delay)
	Scene retrieve message handler. More...
typedef void(	wiced_bt_mesh_property_server_callback_t )(uint8_t element_idx, uint16_t event, void *p_data)
	Generic User Property Server callback is called by the Mesh Models library on receiving a message from the peer. More...
typedef void(	wiced_bt_mesh_property_client_callback_t )(uint16_t event, wiced_bt_mesh_event_t *p_event, void *p_data)
	Property Client callback is called by the Mesh Models library on receiving a message from the peer. More...
typedef void(*	wiced_bt_mesh_unprovisioned_device_cb_t )(uint8_t *p_uuid, uint16_t oob, uint32_t uri_hash, int8_t rssi)

Functions
void	wiced_bt_mesh_model_property_server_init (uint8_t element_idx, wiced_bt_mesh_property_server_callback_t *p_callback, wiced_bool_t is_provisioned)
	Property Module initialization. More...
wiced_bool_t	wiced_bt_mesh_model_user_property_server_message_handler (wiced_bt_mesh_event_t *p_event, uint8_t *p_data, uint16_t data_len)
	User Property Server Message Handler. More...
wiced_bool_t	wiced_bt_mesh_model_admin_property_server_message_handler (wiced_bt_mesh_event_t *p_event, uint8_t *p_data, uint16_t data_len)
	Admin Property Server Message Handler. More...
wiced_bool_t	wiced_bt_mesh_model_manufacturer_property_server_message_handler (wiced_bt_mesh_event_t *p_event, uint8_t *p_data, uint16_t data_len)
	Manufacturer Property Server Message Handler. More...
wiced_bool_t	wiced_bt_mesh_model_client_property_server_message_handler (wiced_bt_mesh_event_t *p_event, uint8_t *p_data, uint16_t data_len)
	Client Property Server Message Handler. More...
wiced_result_t	wiced_bt_mesh_model_property_server_send_properties_status (wiced_bt_mesh_event_t *p_event, wiced_bt_mesh_properties_status_data_t *p_data)
wiced_result_t	wiced_bt_mesh_model_property_server_send_property_status (wiced_bt_mesh_event_t *p_event, uint8_t type, wiced_bt_mesh_core_config_property_t *p_property)
void	wiced_bt_mesh_model_property_client_init (uint8_t element_idx, wiced_bt_mesh_property_client_callback_t *p_callback, wiced_bool_t is_provisioned)
	Property Client Module initialization. More...
wiced_bool_t	wiced_bt_mesh_model_property_client_message_handler (wiced_bt_mesh_event_t *p_event, uint8_t *p_data, uint16_t data_len)
	Property Client Message Handler. More...
wiced_result_t	wiced_bt_mesh_model_property_client_send_properties_get (wiced_bt_mesh_event_t *p_event, wiced_bt_mesh_properties_get_data_t *p_data)
	The application can call this function to send Properties Get client message to the server. More...
wiced_result_t	wiced_bt_mesh_model_property_client_send_property_get (wiced_bt_mesh_event_t *p_event, wiced_bt_mesh_property_get_data_t *p_get)
	The application can call this function to send Property Get client message to the server. More...
wiced_result_t	wiced_bt_mesh_model_property_client_send_property_set (wiced_bt_mesh_event_t *p_event, wiced_bt_mesh_property_set_data_t *p_sata)
	The application can call this function to send Property Set client message to the server. More...
void	wiced_bt_mesh_remote_provisioning_server_init (void)
	Remote Provisioning Server initialization. More...
void	wiced_bt_mesh_remote_provisioning_server_set_min_rssi (int8_t min_rssi)
	Configures Remote Provisioning Server shall drop all unprovisioned beacons and provisioning service adverts with RSSI less than min_rssi. More...
wiced_bool_t	wiced_bt_mesh_remote_provisioning_scan_rsp (wiced_bt_ble_scan_results_t *p_adv_report, uint8_t *p_adv_data)
	Process Scan Response Packets to check if the packet is for remote provisioning server. More...
wiced_bool_t	wiced_bt_mesh_remote_provisioning_connectable_adv_packet (wiced_bt_ble_scan_results_t *p_adv_report, uint8_t *p_adv_data)
	Process Connectable Advertising Packets to check if the packet is for remote provisioning server. More...
wiced_bool_t	wiced_bt_mesh_remote_provisioning_nonconnectable_adv_packet (wiced_bt_ble_scan_results_t *p_adv_report, uint8_t *p_adv_data)
	Process None Connectable Advertising Packets to check if the packet is for remote provisioning server. More...
void	wiced_bt_mesh_models_set_trace_level (uint8_t level)
	Sets trace level for mesh_models_lib and mesh_provisioner_lib. More...
int	wiced_bt_mesh_model_find_element_idx (uint16_t company_id, uint16_t model_id, uint8_t start_idx)
	Find model in the node configuration starting with specified element index. More...
wiced_bool_t	wiced_bt_mesh_config_server_message_handler (wiced_bt_mesh_event_t *p_event, uint8_t *p_data, uint16_t data_len)
	Config Server Model Message Handler. More...
void	wiced_bt_mesh_config_server_send_reply (wiced_bt_mesh_event_t *p_event, uint16_t opcode, uint8_t *p_buffer, uint16_t len)
	This function can be called to send message through the core. More...
void	wiced_bt_mesh_config_server_send_segmented (wiced_bool_t enable)
	This function can be called to configure configuration server to send always segmented messages regardless of the message size. More...

Variables
uint8_t	wiced_bt_mesh_model_timer_server_get_interval
	Interval in seconds to send time get message while the time isn't set yet. More...

Following macros can be used instantiate the mesh models
Following macros instantiate the mesh models on a given element. Based on the device definition the mesh core creates a device composition data that can be read by the the provisioner. There certain rules that application shall follow when building device composition data. The first element of the device shall always contain WICED_BT_MESH_DEVICE which instantiates models that shall be present on every device, including the Configuration Server Model and the Health Server Model. Each model consists of the model definition itself (company ID and model ID) and callback function which is executed by the Mesh Core library on receiving a mesh message. Application can use Mesh Library's callback. In that case all validation of the messages, sending responses, and other protocol requirements are executed by the model. Alternatively application can implement callback itself. In that case, customer will be required to perform certification. A model cannot be repeated twice in the same element.
wiced_bool_t	wiced_bt_mesh_remote_provisioning_server_message_handler (wiced_bt_mesh_event_t *p_event, uint8_t *p_data, uint16_t data_len)
#define	WICED_BT_MESH_DEVICE
	Mesh Device includes Configuration Server and Health Server models. More...
#define	WICED_BT_MESH_MODEL_CONFIG_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_CONFIG_CLNT, wiced_bt_mesh_config_client_message_handler, NULL, NULL }
	Mesh Configuration Client Model.
#define	WICED_BT_MESH_MODEL_HEALTH_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_HEALTH_CLNT, wiced_bt_mesh_model_health_client_message_handler, NULL, NULL }
	Mesh Health Client Model.
#define	WICED_BT_MESH_MODEL_REMOTE_PROVISION_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_REMOTE_PROVISION_CLNT, wiced_bt_mesh_config_client_message_handler, NULL, NULL }
	Mesh Remote Provisioning Model.
#define	WICED_BT_MESH_MODEL_REMOTE_PROVISION_SERVER   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_REMOTE_PROVISION_SRV, wiced_bt_mesh_remote_provisioning_server_message_handler, NULL, NULL }
	Mesh Remote Provisioning Server Model. More...
#define	WICED_BT_MESH_MODEL_LOCATION_SERVER
	Mesh Location Server Device. More...
#define	WICED_BT_MESH_MODEL_USER_PROPERTY_SERVER   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_USER_PROPERTY_SRV, wiced_bt_mesh_model_user_property_server_message_handler, NULL, NULL }
#define	WICED_BT_MESH_MODEL_ADMIN_PROPERTY_SERVER   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_ADMIN_PROPERTY_SRV, wiced_bt_mesh_model_admin_property_server_message_handler, NULL, NULL }
#define	WICED_BT_MESH_MODEL_MANUFACTURER_PROPERTY_SERVER   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_MANUFACT_PROPERTY_SRV, wiced_bt_mesh_model_manufacturer_property_server_message_handler, NULL, NULL }
#define	WICED_BT_MESH_MODEL_CLIENT_PROPERTY_SERVER   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_CLIENT_PROPERTY_SRV, wiced_bt_mesh_model_client_property_server_message_handler, NULL, NULL }
#define	WICED_BT_MESH_MODEL_LIGHT_HSL_CTL_SERVER
	Mesh Light HSL/CTL Server Device. More...
#define	WICED_BT_MESH_MODEL_LIGHT_HSL_CTL_XYL_SERVER
	Mesh Light HSL/CTL/XYL Server Device. More...
#define	WICED_BT_MESH_MODEL_LIGHT_LC_SERVER
	Mesh Light Controller Device. More...
#define	WICED_BT_MESH_MODEL_SENSOR_SERVER
#define	WICED_BT_MESH_MODEL_TIME_SERVER
#define	WICED_BT_MESH_MODEL_LEVEL_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_LEVEL_CLNT, wiced_bt_mesh_model_level_client_message_handler, NULL, NULL }
	Mesh Level Client Device. More...
#define	WICED_BT_MESH_MODEL_DEFAULT_TRANSITION_TIME_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_DEFTT_CLNT, wiced_bt_mesh_model_default_transition_time_client_message_handler, NULL, NULL }
#define	WICED_BT_MESH_MODEL_POWER_ONOFF_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_POWER_ONOFF_CLNT, wiced_bt_mesh_model_power_onoff_client_message_handler, NULL, NULL }
#define	WICED_BT_MESH_MODEL_BATTERY_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_BATTERY_CLNT, wiced_bt_mesh_model_battery_client_message_handler, NULL, NULL }
#define	WICED_BT_MESH_MODEL_LOCATION_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_LOCATION_CLNT, wiced_bt_mesh_model_location_client_message_handler, NULL, NULL }
#define	WICED_BT_MESH_MODEL_PROPERTY_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_PROPERTY_CLNT, wiced_bt_mesh_model_property_client_message_handler, NULL, NULL }
#define	WICED_BT_MESH_MODEL_SENSOR_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_SENSOR_CLNT, wiced_bt_mesh_model_sensor_client_message_handler, NULL, NULL }
#define	WICED_BT_MESH_MODEL_SCENE_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_SCENE_CLNT, wiced_bt_mesh_model_scene_client_message_handler, NULL, NULL }
#define	WICED_BT_MESH_MODEL_SCHEDULER_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_SCHEDULER_CLNT, wiced_bt_mesh_model_scheduler_client_message_handler, NULL, NULL }
#define	WICED_BT_MESH_MODEL_TIME_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_TIME_CLNT, wiced_bt_mesh_model_time_client_message_handler, NULL, NULL }
#define	WICED_BT_MESH_MODEL_LIGHT_LC_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_LC_CLNT, wiced_bt_mesh_model_light_lc_client_message_handler, NULL, NULL }

Battery Presence Flags
#define	WICED_BT_MESH_BATTERY_FLAG_NOT_PRESENT   0x00
	The battery is not present.
#define	WICED_BT_MESH_BATTERY_FLAG_PRESENT_REMOVABLE   0x01
	The battery is present and is removable.
#define	WICED_BT_MESH_BATTERY_FLAG_PRESENT_NON_REMOVABLE   0x02
	The battery is present and is non-removable.
#define	WICED_BT_MESH_BATTERY_FLAG_PRESENCE_UNKNOWN   0x03
	The battery presence is unknown.

Battery Indicator Flags
#define	WICED_BT_MESH_BATTERY_FLAG_LEVEL_CRITICALLY_LOW   0x00
	The battery charge is Critically Low Level. More...
#define	WICED_BT_MESH_BATTERY_FLAG_LEVEL_LOW   0x01
	The battery charge is Low Level. More...
#define	WICED_BT_MESH_BATTERY_FLAG_LEVEL_GOOD   0x02
	The battery charge is Good Level. More...
#define	WICED_BT_MESH_BATTERY_FLAG_LEVEL_UNKNOWN   0x03
	The battery charge is unknown. More...

Battery Charging State Flags
#define	WICED_BT_MESH_BATTERY_FLAG_NOT_CHARGABLE   0x00
	The battery is not chargeable. More...
#define	WICED_BT_MESH_BATTERY_FLAG_NOT_CHARGING   0x01
	The battery is chargeable and is not charging. More...
#define	WICED_BT_MESH_BATTERY_FLAG_CHARGING   0x02
	The battery is chargeable and is charging. More...
#define	WICED_BT_MESH_BATTERY_FLAG_CHARGING_UNKNOWN   0x03
	The battery charging state is unknown. More...

Battery Service Required State Flags
#define	WICED_BT_MESH_BATTERY_FLAG_SERVICE_NOT_REQUIRED   0x01
	The battery does not require service. More...
#define	WICED_BT_MESH_BATTERY_FLAG_SERVICE_REQUIRED   0x02
	The battery requires service. More...
#define	WICED_BT_MESH_BATTERY_FLAG_SERVICABILITY_UNKNOWN   0x03
	The battery serviceability is unknown. More...

Detailed Description

Mesh Models library of the AIROC BTSDK provide a simple method for an application to use various Mesh models defined in the Bluetooth Mesh Model specification.

Macro Definition Documentation

#define WICED_BT_MESH_BATTERY_FLAG_CHARGING   0x02

The battery is chargeable and is charging.

#define WICED_BT_MESH_BATTERY_FLAG_CHARGING_UNKNOWN   0x03

The battery charging state is unknown.

#define WICED_BT_MESH_BATTERY_FLAG_LEVEL_CRITICALLY_LOW   0x00

The battery charge is Critically Low Level.

#define WICED_BT_MESH_BATTERY_FLAG_LEVEL_GOOD   0x02

The battery charge is Good Level.

#define WICED_BT_MESH_BATTERY_FLAG_LEVEL_LOW   0x01

The battery charge is Low Level.

#define WICED_BT_MESH_BATTERY_FLAG_LEVEL_UNKNOWN   0x03

The battery charge is unknown.

#define WICED_BT_MESH_BATTERY_FLAG_NOT_CHARGABLE   0x00

The battery is not chargeable.

#define WICED_BT_MESH_BATTERY_FLAG_NOT_CHARGING   0x01

The battery is chargeable and is not charging.

#define WICED_BT_MESH_BATTERY_FLAG_SERVICABILITY_UNKNOWN   0x03

The battery serviceability is unknown.

#define WICED_BT_MESH_BATTERY_FLAG_SERVICE_NOT_REQUIRED   0x01

The battery does not require service.

#define WICED_BT_MESH_BATTERY_FLAG_SERVICE_REQUIRED   0x02

The battery requires service.

#define WICED_BT_MESH_DEVICE

Value:

{ MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_CONFIG_SRV, wiced_bt_mesh_config_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_HEALTH_SRV, NULL, NULL, NULL }

Mesh Device includes Configuration Server and Health Server models.

This need to be included in the first element of the device.

#define WICED_BT_MESH_LEVEL_MAX_RETRANSMIT_TIME   6

Max retransmit duration for level set command in seconds.

This time is also indicates max duration of the delta command.

#define WICED_BT_MESH_MODEL_LEVEL_CLIENT   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_LEVEL_CLNT, wiced_bt_mesh_model_level_client_message_handler, NULL, NULL }

Mesh Level Client Device.

The device implements a Generic Level device. The device can be configured to control any device that supports Generic Level Server model (WICED_BT_MESH_CORE_MODEL_ID_GENERIC_LEVEL_SRV). For example, WICED_BT_MESH_MODEL_LIGHT_LIGHTNESS_SERVER, WICED_BT_MESH_MODEL_LIGHT_CTL_SERVER, WICED_BT_MESH_MODEL_LIGHT_HSL_SERVER,...

#define WICED_BT_MESH_MODEL_LIGHT_HSL_CTL_SERVER

Value:

{ MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_DEFTT_SRV, wiced_bt_mesh_model_default_transition_time_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_SCENE_SRV, wiced_bt_mesh_model_scene_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_SCENE_SETUP_SRV, wiced_bt_mesh_model_scene_setup_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_ONOFF_SRV, wiced_bt_mesh_model_onoff_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_POWER_ONOFF_SRV, wiced_bt_mesh_model_power_onoff_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_POWER_ONOFF_SETUP_SRV, wiced_bt_mesh_model_power_onoff_setup_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_LEVEL_SRV, wiced_bt_mesh_model_level_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_LIGHTNESS_SRV, wiced_bt_mesh_model_light_lightness_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_LIGHTNESS_SETUP_SRV,  wiced_bt_mesh_model_light_lightness_setup_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_HSL_SRV, wiced_bt_mesh_model_light_hsl_server_message_handler, wiced_bt_mesh_model_light_hsl_server_scene_store_handler, wiced_bt_mesh_model_light_hsl_server_scene_recall_handler }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_HSL_SETUP_SRV, wiced_bt_mesh_model_light_hsl_setup_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_CTL_SRV, wiced_bt_mesh_model_light_ctl_server_message_handler, wiced_bt_mesh_model_light_ctl_server_scene_store_handler, wiced_bt_mesh_model_light_ctl_server_scene_recall_handler }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_CTL_SETUP_SRV, wiced_bt_mesh_model_light_ctl_setup_server_message_handler, NULL, NULL  }

Mesh Light HSL/CTL Server Device.

The device implements all required models for the main element of a color bulb that supports brightness, hue and saturation but also a color temperature controls. Note that for the full color bulb implementation this device needs to be combined with hue server (WICED_BT_MESH_MODEL_LIGHT_HSL_HUE_SERVER), saturation server (WICED_BT_MESH_MODEL_LIGHT_HSL_SATURATION_SERVER) and color temperature server (WICED_BT_MESH_MODEL_LIGHT_CTL_TEMPERATURE_SERVER) on the consecutive elements. The time and scheduler models are optional and can be commented out to reduce memory footprint.

#define WICED_BT_MESH_MODEL_LIGHT_HSL_CTL_XYL_SERVER

Value:

{ MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_DEFTT_SRV, wiced_bt_mesh_model_default_transition_time_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_SCENE_SRV, wiced_bt_mesh_model_scene_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_SCENE_SETUP_SRV, wiced_bt_mesh_model_scene_setup_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_ONOFF_SRV, wiced_bt_mesh_model_onoff_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_POWER_ONOFF_SRV, wiced_bt_mesh_model_power_onoff_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_POWER_ONOFF_SETUP_SRV, wiced_bt_mesh_model_power_onoff_setup_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_LEVEL_SRV, wiced_bt_mesh_model_level_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_LIGHTNESS_SRV, wiced_bt_mesh_model_light_lightness_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_LIGHTNESS_SETUP_SRV,  wiced_bt_mesh_model_light_lightness_setup_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_HSL_SRV, wiced_bt_mesh_model_light_hsl_server_message_handler, wiced_bt_mesh_model_light_hsl_server_scene_store_handler, wiced_bt_mesh_model_light_hsl_server_scene_recall_handler }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_HSL_SETUP_SRV, wiced_bt_mesh_model_light_hsl_setup_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_CTL_SRV, wiced_bt_mesh_model_light_ctl_server_message_handler, wiced_bt_mesh_model_light_ctl_server_scene_store_handler, wiced_bt_mesh_model_light_ctl_server_scene_recall_handler }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_CTL_SETUP_SRV, wiced_bt_mesh_model_light_ctl_setup_server_message_handler, NULL, NULL  }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_XYL_SRV, wiced_bt_mesh_model_light_xyl_server_message_handler, wiced_bt_mesh_model_light_xyl_server_scene_store_handler, wiced_bt_mesh_model_light_xyl_server_scene_recall_handler }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_XYL_SETUP_SRV, wiced_bt_mesh_model_light_xyl_setup_server_message_handler, NULL, NULL  }

Mesh Light HSL/CTL/XYL Server Device.

The device implements all required models for the main element of a color bulb that supports brightness, hue and saturation but also a color temperature controls and xyL controls. Note that for the full color bulb implementation this device needs to be combined with hue server (WICED_BT_MESH_MODEL_LIGHT_HSL_HUE_SERVER), saturation server (WICED_BT_MESH_MODEL_LIGHT_HSL_SATURATION_SERVER) and color temperature server (WICED_BT_MESH_MODEL_LIGHT_CTL_TEMPERATURE_SERVER) on the consecutive elements. The time and scheduler models are optional and can be commented out to reduce memory footprint.

#define WICED_BT_MESH_MODEL_LIGHT_LC_SERVER

Value:

{ MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_ONOFF_SRV, wiced_bt_mesh_model_onoff_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_LC_SRV, wiced_bt_mesh_model_light_lc_server_message_handler, wiced_bt_mesh_model_light_lc_server_scene_store_handler, wiced_bt_mesh_model_light_lc_server_scene_recall_handler }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_LIGHT_LC_SETUP_SRV, wiced_bt_mesh_model_light_lc_setup_server_message_handler, NULL, NULL }

Mesh Light Controller Device.

This is an additional part of the light controller. The main part will contain one or more elements required to implement a dimmable or a colored bulb. The time and scheduler models are optional and can be commented out to reduce memory footprint.

#define WICED_BT_MESH_MODEL_LOCATION_SERVER

Value:

{ MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_LOCATION_SRV, wiced_bt_mesh_model_location_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_GENERIC_LOCATION_SETUP_SRV, wiced_bt_mesh_model_location_setup_server_message_handler, NULL, NULL }

Mesh Location Server Device.

The device provides global and/or local location. The device can exist standalone and can be combined with other devices.

#define WICED_BT_MESH_MODEL_REMOTE_PROVISION_SERVER   { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_REMOTE_PROVISION_SRV, wiced_bt_mesh_remote_provisioning_server_message_handler, NULL, NULL }

Mesh Remote Provisioning Server Model.

The model is used by a Provisioner to provision new devices not in the immediate radio range, i.e. provision over mesh. This is an optional feature, but will provide additional flexibility for a mesh network. It is recommended to include in the first element space permitted.

#define WICED_BT_MESH_MODEL_SENSOR_SERVER

Value:

{ MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_SENSOR_SRV, wiced_bt_mesh_model_sensor_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_SENSOR_SETUP_SRV, wiced_bt_mesh_model_sensor_setup_server_message_handler, NULL, NULL }

#define WICED_BT_MESH_MODEL_TIME_SERVER

Value:

{ MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_TIME_SRV, wiced_bt_mesh_model_time_server_message_handler, NULL, NULL }, \
    { MESH_COMPANY_ID_BT_SIG, WICED_BT_MESH_CORE_MODEL_ID_TIME_SETUP_SRV, wiced_bt_mesh_model_time_setup_server_message_handler, NULL, NULL }

#define WICED_BT_MESH_PROPERTY_TYPE_CLIENT   0

Property types defined in the Mesh Models specifications wiced_bt_mesh_property_type enumeration.

Property type client

Typedef Documentation

typedef void( wiced_bt_mesh_property_client_callback_t)(uint16_t event, wiced_bt_mesh_event_t *p_event, void *p_data)

Property Client callback is called by the Mesh Models library on receiving a message from the peer.

Parameters

event	The event that the application should process (see Mesh Property Events)
p_event	information about the message received. The same pointer should be used in the reply if required.
p_data	Pointer to the data to send

Returns

None

typedef void( wiced_bt_mesh_property_server_callback_t)(uint8_t element_idx, uint16_t event, void *p_data)

Generic User Property Server callback is called by the Mesh Models library on receiving a message from the peer.

Parameters

element_idx	Element Index of the model
event	The event that the application should process (see User Property Events)
p_data	Pointer to the property data

Returns

None

typedef uint16_t(* wiced_model_scene_recall_handler_t)(uint8_t element_idx, uint8_t *p_buffer, uint16_t buf_size, uint32_t transition_time, uint32_t delay)

Scene retrieve message handler.

Each model may define a message handler if it stores data per scene in the NVRAM. When Scene Server receives Scene Recall message it calls each model's handler.

Parameters

element_idx	Element index for which scene information is being recalled
p_buffer	Pointer to a buffer where model's data is located
buf_size	Maximum amount of data a model can get from the buffer

Returns

Number of bytes the model read from the provided buffer

typedef uint16_t(* wiced_model_scene_store_handler_t)(uint8_t element_idx, uint8_t *p_buffer, uint16_t buf_size)

Scene store message handler.

Each model may define a message handler if it needs to store data per scene in the NVRAM. When Scene Server receives Scene Store message it calls each model's handler.

Parameters

element_idx	Element index for which scene information is being stored
p_buffer	Pointer to a buffer where data should be stored
buf_size	Maximum amount of data a model can store

Returns

Number of bytes the model wrote into the provided buffer

Function Documentation

wiced_bool_t wiced_bt_mesh_config_server_message_handler	(	wiced_bt_mesh_event_t *	p_event,
		uint8_t *	p_data,
		uint16_t	data_len
	)

Config Server Model Message Handler.

Application Library typically calls this function when function to process a message received from the Config Client. The function parses the message and if appropriate calls the application back to perform functionality.

Parameters

p_event	Mesh event with information about received message.
p_data	Pointer to the data portion of the message
data_len	Length of the data in the message

Returns

WICED_TRUE if the message is for this company ID/Model combination, WICED_FALSE otherwise.

void wiced_bt_mesh_config_server_send_reply	(	wiced_bt_mesh_event_t *	p_event,
		uint16_t	opcode,
		uint8_t *	p_buffer,
		uint16_t	len
	)

This function can be called to send message through the core.

The function keeps track of the output event .

Parameters

p_event	Fully prepared wiced_bt_mesh_event_t structure with information on where and how event should be sent
opcode	opcode to send
params	Pointer to the parameters data to be sent out.
len	Size of the parameters data to be sent out. The maximum length is about 377 bytes (depends on the size of the opcode).

void wiced_bt_mesh_config_server_send_segmented

(

wiced_bool_t

enable

)

This function can be called to configure configuration server to send always segmented messages regardless of the message size.

Parameters

enable

WICED_TRUE enables the mode when config server always sends segmented messages. WICED_FALSE disables that mode.

wiced_bool_t wiced_bt_mesh_model_admin_property_server_message_handler	(	wiced_bt_mesh_event_t *	p_event,
		uint8_t *	p_data,
		uint16_t	data_len
	)

Admin Property Server Message Handler.

The Mesh Core library calls this function for each message received. The function returns WICED_TRUE if the message is destined for this specific model and successfully processed, and returns WICED_FALSE otherwise.

Parameters

p_event	Mesh event with information about received message.
p_data	Pointer to the data portion of the message
data_len	Length of the data in the message

Returns

WICED_TRUE if the message is for this company ID/Model/Element Index combination, WICED_FALSE otherwise.

wiced_bool_t wiced_bt_mesh_model_client_property_server_message_handler	(	wiced_bt_mesh_event_t *	p_event,
		uint8_t *	p_data,
		uint16_t	data_len
	)

Client Property Server Message Handler.

The Mesh Core library calls this function for each message received. The function returns WICED_TRUE if the message is destined for this specific model and successfully processed, and returns WICED_FALSE otherwise.

Parameters

p_event	Mesh event with information about received message.
p_data	Pointer to the data portion of the message
data_len	Length of the data in the message

Returns

WICED_TRUE if the message is for this company ID/Model/Element Index combination, WICED_FALSE otherwise.

int wiced_bt_mesh_model_find_element_idx	(	uint16_t	company_id,
		uint16_t	model_id,
		uint8_t	start_idx
	)

Find model in the node configuration starting with specified element index.

Parameters

[in]	company_id	Company ID of the model
[in]	model_id	Model ID of the model
[in]	start_idx	Starting element index

wiced_bool_t wiced_bt_mesh_model_manufacturer_property_server_message_handler	(	wiced_bt_mesh_event_t *	p_event,
		uint8_t *	p_data,
		uint16_t	data_len
	)

Manufacturer Property Server Message Handler.

The Mesh Core library calls this function for each message received. The function returns WICED_TRUE if the message is destined for this specific model and successfully processed, and returns WICED_FALSE otherwise.

Parameters

p_event	Mesh event with information about received message.
p_data	Pointer to the data portion of the message
data_len	Length of the data in the message

Returns

WICED_TRUE if the message is for this company ID/Model/Element Index combination, WICED_FALSE otherwise.

void wiced_bt_mesh_model_property_client_init	(	uint8_t	element_idx,
		wiced_bt_mesh_property_client_callback_t *	p_callback,
		wiced_bool_t	is_provisioned
	)

Property Client Module initialization.

Parameters

element_idx	Device element to where model is used
p_callback	The application callback function that will be executed by the mesh models library when application action is required, or when a reply for the application request has been received.
is_provisioned	If TRUE, the application is being restarted after being provisioned or after a power loss. If FALSE the model cleans up NVRAM on startup.

Returns

None

wiced_bool_t wiced_bt_mesh_model_property_client_message_handler	(	wiced_bt_mesh_event_t *	p_event,
		uint8_t *	p_data,
		uint16_t	data_len
	)

Property Client Message Handler.

The Mesh Core library calls this function for each message received. The function returns WICED_TRUE if the message is destined for this specific model and successfully processed, and returns WICED_FALSE otherwise.

Parameters

p_event	Mesh event with information about received message.
p_data	Pointer to the data portion of the message
data_len	Length of the data in the message

Returns

WICED_TRUE if the message is for this company ID/Model/Element Index combination, WICED_FALSE otherwise.

wiced_result_t wiced_bt_mesh_model_property_client_send_properties_get	(	wiced_bt_mesh_event_t *	p_event,
		wiced_bt_mesh_properties_get_data_t *	p_data
	)

The application can call this function to send Properties Get client message to the server.

Parameters

p_event

Mesh event with the information about the message that has been created by the app for unsolicited message.

Returns

WICED_BT_SUCCESS if message has been queued for transmission.

wiced_result_t wiced_bt_mesh_model_property_client_send_property_get	(	wiced_bt_mesh_event_t *	p_event,
		wiced_bt_mesh_property_get_data_t *	p_get
	)

The application can call this function to send Property Get client message to the server.

Parameters

p_event

Mesh event with the information about the message that has been created by the app for unsolicited message.

Returns

WICED_BT_SUCCESS if message has been queued for transmission.

wiced_result_t wiced_bt_mesh_model_property_client_send_property_set	(	wiced_bt_mesh_event_t *	p_event,
		wiced_bt_mesh_property_set_data_t *	p_sata
	)

The application can call this function to send Property Set client message to the server.

Parameters

p_event	Mesh event with the information about the message that has been created by the app for unsolicited message.
p_data	Pointer to the data to send

Returns

WICED_BT_SUCCESS if message has been queued for transmission.

void wiced_bt_mesh_model_property_server_init	(	uint8_t	element_idx,
		wiced_bt_mesh_property_server_callback_t *	p_callback,
		wiced_bool_t	is_provisioned
	)

Property Module initialization.

Parameters

element_idx	Device element to where model is used
p_callback	Application or Parent model callback that will be executed on receiving a message
is_provisioned	If TRUE, the application is being restarted after being provisioned or after a power loss. If FALSE the model cleans up NVRAM on startup.

Returns

None

wiced_bool_t wiced_bt_mesh_model_user_property_server_message_handler	(	wiced_bt_mesh_event_t *	p_event,
		uint8_t *	p_data,
		uint16_t	data_len
	)

User Property Server Message Handler.

The Mesh Core library calls this function for each message received. The function returns WICED_TRUE if the message is destined for this specific model and successfully processed, and returns WICED_FALSE otherwise.

Parameters

p_event	Mesh event with information about received message.
p_data	Pointer to the data portion of the message
data_len	Length of the data in the message

Returns

WICED_TRUE if the message is for this company ID/Model/Element Index combination, WICED_FALSE otherwise.

void wiced_bt_mesh_models_set_trace_level

(

uint8_t

level

)

Sets trace level for mesh_models_lib and mesh_provisioner_lib.

Application may call this function to set trace level for mesh_models_lib and mesh_provisioner_lib. By default trace level is 0(no trace).

Parameters

[in]

level

Trace level to set. It can be any of WICED_BT_MESH_CORE_TRACE_XXX.

wiced_bool_t wiced_bt_mesh_remote_provisioning_connectable_adv_packet	(	wiced_bt_ble_scan_results_t *	p_adv_report,
		uint8_t *	p_adv_data
	)

Process Connectable Advertising Packets to check if the packet is for remote provisioning server.

Parameters

p_adv_report	Advertising report paremeters
p_adv_data	Advertising data

Returns

WICED_TRUE/WICED_FALSE - success/failed.

wiced_bool_t wiced_bt_mesh_remote_provisioning_nonconnectable_adv_packet	(	wiced_bt_ble_scan_results_t *	p_adv_report,
		uint8_t *	p_adv_data
	)

Process None Connectable Advertising Packets to check if the packet is for remote provisioning server.

Parameters

p_adv_report	Advertising report paremeters
p_adv_data	Advertising data

Returns

WICED_TRUE/WICED_FALSE - success/failed.

wiced_bool_t wiced_bt_mesh_remote_provisioning_scan_rsp	(	wiced_bt_ble_scan_results_t *	p_adv_report,
		uint8_t *	p_adv_data
	)

Process Scan Response Packets to check if the packet is for remote provisioning server.

Parameters

p_adv_report	Advertising report paremeters
p_adv_data	Advertising data

Returns

WICED_TRUE/WICED_FALSE - success/failed.

void wiced_bt_mesh_remote_provisioning_server_init

(

void

)

Remote Provisioning Server initialization.

Parameters

None

Returns

None

void wiced_bt_mesh_remote_provisioning_server_set_min_rssi

(

int8_t

min_rssi

)

Configures Remote Provisioning Server shall drop all unprovisioned beacons and provisioning service adverts with RSSI less than min_rssi.

It shall be called after wiced_bt_mesh_remote_provisioning_server_init;

Parameters

min_rssi

min RSSI to handle

Returns

None

Variable Documentation

uint8_t wiced_bt_mesh_model_timer_server_get_interval

Interval in seconds to send time get message while the time isn't set yet.

The value can be changed by the application. 0 means don't send time get message if time isn't initialized. Default value is 0.