include/zephyr/lorawan/lorawan.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /*
  * Copyright (c) 2020 Manivannan Sadhasivam <mani@kernel.org>
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #ifndef ZEPHYR_INCLUDE_LORAWAN_LORAWAN_H_
 #define ZEPHYR_INCLUDE_LORAWAN_LORAWAN_H_

 /**
  * @file
  * @brief Public LoRaWAN APIs
  * @defgroup lorawan_api LoRaWAN APIs
  * @ingroup subsystem
  * @{
  */

 #include <zephyr/device.h>
 #include <zephyr/sys/slist.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 /**
  * @brief LoRaWAN class types.
  */
 enum lorawan_class {
 	LORAWAN_CLASS_A = 0x00,
 	LORAWAN_CLASS_B = 0x01,
 	LORAWAN_CLASS_C = 0x02,
 };

 /**
  * @brief LoRaWAN activation types.
  */
 enum lorawan_act_type {
 	LORAWAN_ACT_OTAA = 0,
 	LORAWAN_ACT_ABP,
 };

 /**
  * @brief LoRaWAN datarate types.
  */
 enum lorawan_datarate {
 	LORAWAN_DR_0 = 0,
 	LORAWAN_DR_1,
 	LORAWAN_DR_2,
 	LORAWAN_DR_3,
 	LORAWAN_DR_4,
 	LORAWAN_DR_5,
 	LORAWAN_DR_6,
 	LORAWAN_DR_7,
 	LORAWAN_DR_8,
 	LORAWAN_DR_9,
 	LORAWAN_DR_10,
 	LORAWAN_DR_11,
 	LORAWAN_DR_12,
 	LORAWAN_DR_13,
 	LORAWAN_DR_14,
 	LORAWAN_DR_15,
 };

 /**
  * @brief LoRaWAN message types.
  */
 enum lorawan_message_type {
 	LORAWAN_MSG_UNCONFIRMED = 0,
 	LORAWAN_MSG_CONFIRMED,
 };

 /**
  * @brief LoRaWAN join parameters for over-the-Air activation (OTAA)
  *
  * Note that all of the fields use LoRaWAN 1.1 terminology.
  *
  * All parameters are optional if a secure element is present in which
  * case the values stored in the secure element will be used instead.
  */
 struct lorawan_join_otaa {
 	/** Join EUI */
 	uint8_t *join_eui;
 	/** Network Key */
 	uint8_t *nwk_key;
 	/** Application Key */
 	uint8_t *app_key;
 	/**
 	 * Device Nonce
 	 *
 	 * Starting with LoRaWAN 1.0.4 the DevNonce must be monotonically
 	 * increasing for each OTAA join with the same EUI. The DevNonce
 	 * should be stored in non-volatile memory by the application.
 	 */
 	uint32_t dev_nonce;
 };

 struct lorawan_join_abp {
 	/** Device address on the network */
 	uint32_t dev_addr;
 	/** Application session key */
 	uint8_t *app_skey;
 	/** Network session key */
 	uint8_t *nwk_skey;
 	/** Application EUI */
 	uint8_t *app_eui;
 };

 struct lorawan_join_config {
 	union {
 		struct lorawan_join_otaa otaa;
 		struct lorawan_join_abp abp;
 	};

 	/** Device EUI. Optional if a secure element is present. */
 	uint8_t *dev_eui;

 	enum lorawan_act_type mode;
 };

 #define LW_RECV_PORT_ANY UINT16_MAX

 struct lorawan_downlink_cb {
 	/* Port to handle messages for:
 	 *               Port 0: TX packet acknowledgements
 	 *          Ports 1-255: Standard downlink port
 	 *     LW_RECV_PORT_ANY: All downlinks
 	 */
 	uint16_t port;
 	/**
 	 * @brief Callback function to run on downlink data
 	 *
 	 * @note Callbacks are run on the system workqueue,
 	 *       and should therefore be as short as possible.
 	 *
 	 * @param port Port message was sent on
 	 * @param data_pending Network server has more downlink packets pending
 	 * @param rssi Received signal strength in dBm
 	 * @param snr Signal to Noise ratio in dBm
 	 * @param len Length of data received, will be 0 for ACKs
 	 * @param data Data received, will be NULL for ACKs
 	 */
 	void (*cb)(uint8_t port, bool data_pending,
 		   int16_t rssi, int8_t snr,
 		   uint8_t len, const uint8_t *data);
 	/** Node for callback list */
 	sys_snode_t node;
 };

 /**
  * @brief Add battery level callback function.
  *
  * Provide the LoRaWAN stack with a function to be called whenever a battery
  * level needs to be read. As per LoRaWAN specification the callback needs to
  * return "0:      node is connected to an external power source,
  *         1..254: battery level, where 1 is the minimum and 254 is the maximum
  *                 value,
  *         255: the node was not able to measure the battery level"
  *
  * Should no callback be provided the lorawan backend will report 255.
  *
  * @param battery_lvl_cb Pointer to the battery level function
  *
  * @return 0 if successful, negative errno code if failure
  */
 int lorawan_set_battery_level_callback(uint8_t (*battery_lvl_cb)(void));

 /**
  * @brief Register a callback to be run on downlink packets
  *
  * @param cb Pointer to structure containing callback parameters
  */
 void lorawan_register_downlink_callback(struct lorawan_downlink_cb *cb);

 /**
  * @brief Register a callback to be called when the datarate changes
  *
  * The callback is called once upon successfully joining a network and again
  * each time the datarate changes due to ADR.
  *
  * The callback function takes one parameter:
  *	- dr - updated datarate
  *
  * @param dr_cb Pointer to datarate update callback
  */
 void lorawan_register_dr_changed_callback(void (*dr_cb)(enum lorawan_datarate));

 /**
  * @brief Join the LoRaWAN network
  *
  * Join the LoRaWAN network using OTAA or AWB.
  *
  * @param config Configuration to be used
  *
  * @return 0 if successful, negative errno code if failure
  */
 int lorawan_join(const struct lorawan_join_config *config);

 /**
  * @brief Start the LoRaWAN stack
  *
  * This function need to be called before joining the network.
  *
  * @return 0 if successful, negative errno code if failure
  */
 int lorawan_start(void);

 /**
  * @brief Send data to the LoRaWAN network
  *
  * Send data to the connected LoRaWAN network.
  *
  * @param port       Port to be used for sending data. Must be set if the
  *                   payload is not empty.
  * @param data       Data buffer to be sent
  * @param len        Length of the buffer to be sent. Maximum length of this
  *                   buffer is 255 bytes but the actual payload size varies with
  *                   region and datarate.
  * @param type       Specifies if the message shall be confirmed or unconfirmed.
  *                   Must be one of @ref lorawan_message_type.
  *
  * @return 0 if successful, negative errno code if failure
  */
 int lorawan_send(uint8_t port, uint8_t *data, uint8_t len, enum lorawan_message_type type);

 /**
  * @brief Set the current device class
  *
  * Change the current device class. This function may be called before
  * or after a network connection has been established.
  *
  * @param dev_class New device class
  *
  * @return 0 if successful, negative errno code if failure
  */
 int lorawan_set_class(enum lorawan_class dev_class);

 /**
  * @brief Set the number of tries used for transmissions
  *
  * @param tries Number of tries to be used
  *
  * @return 0 if successful, negative errno code if failure
  */
 int lorawan_set_conf_msg_tries(uint8_t tries);

 /**
  * @brief Enable Adaptive Data Rate (ADR)
  *
  * Control whether adaptive data rate (ADR) is enabled. When ADR is enabled,
  * the data rate is treated as a default data rate that will be used if the
  * ADR algorithm has not established a data rate. ADR should normally only
  * be enabled for devices with stable RF conditions (i.e., devices in a mostly
  * static location).
  *
  * @param enable Enable or Disable adaptive data rate.
  */
 void lorawan_enable_adr(bool enable);

 /**
  * @brief Set the default data rate
  *
  * Change the default data rate.
  *
  * @param dr Data rate used for transmissions
  *
  * @return 0 if successful, negative errno code if failure
  */
 int lorawan_set_datarate(enum lorawan_datarate dr);

 /**
  * @brief Get the minimum possible datarate
  *
  * The minimum possible datarate may change in response to a TxParamSetupReq
  * command from the network server.
  *
  * @return Minimum possible data rate
  */
 enum lorawan_datarate lorawan_get_min_datarate(void);

 /**
  * @brief Get the current payload sizes
  *
  * Query the current payload sizes. The maximum payload size varies with
  * datarate, while the current payload size can be less due to MAC layer
  * commands which are inserted into uplink packets.
  *
  * @param max_next_payload_size Maximum payload size for the next transmission
  * @param max_payload_size Maximum payload size for this datarate
  */
 void lorawan_get_payload_sizes(uint8_t *max_next_payload_size,
 			       uint8_t *max_payload_size);

 #ifdef __cplusplus
 }
 #endif

 /**
  * @}
  */

 #endif /* ZEPHYR_INCLUDE_LORAWAN_LORAWAN_H_ */
	/*
	* Copyright (c) 2020 Manivannan Sadhasivam <mani@kernel.org>
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#ifndef ZEPHYR_INCLUDE_LORAWAN_LORAWAN_H_
	#define ZEPHYR_INCLUDE_LORAWAN_LORAWAN_H_

	/**
	* @file
	* @brief Public LoRaWAN APIs
	* @defgroup lorawan_api LoRaWAN APIs
	* @ingroup subsystem
	* @{
	*/

	#include <zephyr/device.h>
	#include <zephyr/sys/slist.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	/**
	* @brief LoRaWAN class types.
	*/
	enum lorawan_class {
	LORAWAN_CLASS_A = 0x00,
	LORAWAN_CLASS_B = 0x01,
	LORAWAN_CLASS_C = 0x02,
	};

	/**
	* @brief LoRaWAN activation types.
	*/
	enum lorawan_act_type {
	LORAWAN_ACT_OTAA = 0,
	LORAWAN_ACT_ABP,
	};

	/**
	* @brief LoRaWAN datarate types.
	*/
	enum lorawan_datarate {
	LORAWAN_DR_0 = 0,
	LORAWAN_DR_1,
	LORAWAN_DR_2,
	LORAWAN_DR_3,
	LORAWAN_DR_4,
	LORAWAN_DR_5,
	LORAWAN_DR_6,
	LORAWAN_DR_7,
	LORAWAN_DR_8,
	LORAWAN_DR_9,
	LORAWAN_DR_10,
	LORAWAN_DR_11,
	LORAWAN_DR_12,
	LORAWAN_DR_13,
	LORAWAN_DR_14,
	LORAWAN_DR_15,
	};

	/**
	* @brief LoRaWAN message types.
	*/
	enum lorawan_message_type {
	LORAWAN_MSG_UNCONFIRMED = 0,
	LORAWAN_MSG_CONFIRMED,
	};

	/**
	* @brief LoRaWAN join parameters for over-the-Air activation (OTAA)
	*
	* Note that all of the fields use LoRaWAN 1.1 terminology.
	*
	* All parameters are optional if a secure element is present in which
	* case the values stored in the secure element will be used instead.
	*/
	struct lorawan_join_otaa {
	/** Join EUI */
	uint8_t *join_eui;
	/** Network Key */
	uint8_t *nwk_key;
	/** Application Key */
	uint8_t *app_key;
	/**
	* Device Nonce
	*
	* Starting with LoRaWAN 1.0.4 the DevNonce must be monotonically
	* increasing for each OTAA join with the same EUI. The DevNonce
	* should be stored in non-volatile memory by the application.
	*/
	uint32_t dev_nonce;
	};

	struct lorawan_join_abp {
	/** Device address on the network */
	uint32_t dev_addr;
	/** Application session key */
	uint8_t *app_skey;
	/** Network session key */
	uint8_t *nwk_skey;
	/** Application EUI */
	uint8_t *app_eui;
	};

	struct lorawan_join_config {
	union {
	struct lorawan_join_otaa otaa;
	struct lorawan_join_abp abp;
	};

	/** Device EUI. Optional if a secure element is present. */
	uint8_t *dev_eui;

	enum lorawan_act_type mode;
	};

	#define LW_RECV_PORT_ANY UINT16_MAX

	struct lorawan_downlink_cb {
	/* Port to handle messages for:
	* Port 0: TX packet acknowledgements
	* Ports 1-255: Standard downlink port
	* LW_RECV_PORT_ANY: All downlinks
	*/
	uint16_t port;
	/**
	* @brief Callback function to run on downlink data
	*
	* @note Callbacks are run on the system workqueue,
	* and should therefore be as short as possible.
	*
	* @param port Port message was sent on
	* @param data_pending Network server has more downlink packets pending
	* @param rssi Received signal strength in dBm
	* @param snr Signal to Noise ratio in dBm
	* @param len Length of data received, will be 0 for ACKs
	* @param data Data received, will be NULL for ACKs
	*/
	void (*cb)(uint8_t port, bool data_pending,
	int16_t rssi, int8_t snr,
	uint8_t len, const uint8_t *data);
	/** Node for callback list */
	sys_snode_t node;
	};

	/**
	* @brief Add battery level callback function.
	*
	* Provide the LoRaWAN stack with a function to be called whenever a battery
	* level needs to be read. As per LoRaWAN specification the callback needs to
	* return "0: node is connected to an external power source,
	* 1..254: battery level, where 1 is the minimum and 254 is the maximum
	* value,
	* 255: the node was not able to measure the battery level"
	*
	* Should no callback be provided the lorawan backend will report 255.
	*
	* @param battery_lvl_cb Pointer to the battery level function
	*
	* @return 0 if successful, negative errno code if failure
	*/
	int lorawan_set_battery_level_callback(uint8_t (*battery_lvl_cb)(void));

	/**
	* @brief Register a callback to be run on downlink packets
	*
	* @param cb Pointer to structure containing callback parameters
	*/
	void lorawan_register_downlink_callback(struct lorawan_downlink_cb *cb);

	/**
	* @brief Register a callback to be called when the datarate changes
	*
	* The callback is called once upon successfully joining a network and again
	* each time the datarate changes due to ADR.
	*
	* The callback function takes one parameter:
	* - dr - updated datarate
	*
	* @param dr_cb Pointer to datarate update callback
	*/
	void lorawan_register_dr_changed_callback(void (*dr_cb)(enum lorawan_datarate));

	/**
	* @brief Join the LoRaWAN network
	*
	* Join the LoRaWAN network using OTAA or AWB.
	*
	* @param config Configuration to be used
	*
	* @return 0 if successful, negative errno code if failure
	*/
	int lorawan_join(const struct lorawan_join_config *config);

	/**
	* @brief Start the LoRaWAN stack
	*
	* This function need to be called before joining the network.
	*
	* @return 0 if successful, negative errno code if failure
	*/
	int lorawan_start(void);

	/**
	* @brief Send data to the LoRaWAN network
	*
	* Send data to the connected LoRaWAN network.
	*
	* @param port Port to be used for sending data. Must be set if the
	* payload is not empty.
	* @param data Data buffer to be sent
	* @param len Length of the buffer to be sent. Maximum length of this
	* buffer is 255 bytes but the actual payload size varies with
	* region and datarate.
	* @param type Specifies if the message shall be confirmed or unconfirmed.
	* Must be one of @ref lorawan_message_type.
	*
	* @return 0 if successful, negative errno code if failure
	*/
	int lorawan_send(uint8_t port, uint8_t *data, uint8_t len, enum lorawan_message_type type);

	/**
	* @brief Set the current device class
	*
	* Change the current device class. This function may be called before
	* or after a network connection has been established.
	*
	* @param dev_class New device class
	*
	* @return 0 if successful, negative errno code if failure
	*/
	int lorawan_set_class(enum lorawan_class dev_class);

	/**
	* @brief Set the number of tries used for transmissions
	*
	* @param tries Number of tries to be used
	*
	* @return 0 if successful, negative errno code if failure
	*/
	int lorawan_set_conf_msg_tries(uint8_t tries);

	/**
	* @brief Enable Adaptive Data Rate (ADR)
	*
	* Control whether adaptive data rate (ADR) is enabled. When ADR is enabled,
	* the data rate is treated as a default data rate that will be used if the
	* ADR algorithm has not established a data rate. ADR should normally only
	* be enabled for devices with stable RF conditions (i.e., devices in a mostly
	* static location).
	*
	* @param enable Enable or Disable adaptive data rate.
	*/
	void lorawan_enable_adr(bool enable);

	/**
	* @brief Set the default data rate
	*
	* Change the default data rate.
	*
	* @param dr Data rate used for transmissions
	*
	* @return 0 if successful, negative errno code if failure
	*/
	int lorawan_set_datarate(enum lorawan_datarate dr);

	/**
	* @brief Get the minimum possible datarate
	*
	* The minimum possible datarate may change in response to a TxParamSetupReq
	* command from the network server.
	*
	* @return Minimum possible data rate
	*/
	enum lorawan_datarate lorawan_get_min_datarate(void);

	/**
	* @brief Get the current payload sizes
	*
	* Query the current payload sizes. The maximum payload size varies with
	* datarate, while the current payload size can be less due to MAC layer
	* commands which are inserted into uplink packets.
	*
	* @param max_next_payload_size Maximum payload size for the next transmission
	* @param max_payload_size Maximum payload size for this datarate
	*/
	void lorawan_get_payload_sizes(uint8_t *max_next_payload_size,
	uint8_t *max_payload_size);

	#ifdef __cplusplus
	}
	#endif

	/**
	* @}
	*/

	#endif /* ZEPHYR_INCLUDE_LORAWAN_LORAWAN_H_ */