include/drivers/modem/hl7800.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /** @file
  * @brief HL7800 modem public API header file.
  *
  * Allows an application to control the HL7800 modem.
  *
  * Copyright (c) 2020 Laird Connectivity
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #ifndef ZEPHYR_INCLUDE_DRIVERS_MODEM_HL7800_H_
 #define ZEPHYR_INCLUDE_DRIVERS_MODEM_HL7800_H_

 #ifdef __cplusplus
 extern "C" {
 #endif

 #include <zephyr/types.h>

 #include <time.h>

 /* The size includes the NUL character, the strlen doesn't */
 #define MDM_HL7800_REVISION_MAX_SIZE 29
 #define MDM_HL7800_REVISION_MAX_STRLEN (MDM_HL7800_REVISION_MAX_SIZE - 1)

 #define MDM_HL7800_IMEI_SIZE 16
 #define MDM_HL7800_IMEI_STRLEN (MDM_HL7800_IMEI_SIZE - 1)

 #define MDM_HL7800_ICCID_SIZE 21
 #define MDM_HL7800_ICCID_STRLEN (MDM_HL7800_ICCID_SIZE - 1)

 #define MDM_HL7800_SERIAL_NUMBER_SIZE 15
 #define MDM_HL7800_SERIAL_NUMBER_STRLEN (MDM_HL7800_SERIAL_NUMBER_SIZE - 1)

 #define MDM_HL7800_APN_MAX_SIZE 64
 #define MDM_HL7800_APN_USERNAME_MAX_SIZE 65
 #define MDM_HL7800_APN_PASSWORD_MAX_SIZE 65

 #define MDM_HL7800_APN_MAX_STRLEN (MDM_HL7800_APN_MAX_SIZE - 1)
 #define MDM_HL7800_APN_USERNAME_MAX_STRLEN                                     \
 	(MDM_HL7800_APN_USERNAME_MAX_SIZE - 1)
 #define MDM_HL7800_APN_PASSWORD_MAX_STRLEN                                     \
 	(MDM_HL7800_APN_PASSWORD_MAX_SIZE - 1)

 #define MDM_HL7800_APN_CMD_MAX_SIZE                                            \
 	(32 + MDM_HL7800_APN_USERNAME_MAX_STRLEN +                             \
 	 MDM_HL7800_APN_PASSWORD_MAX_STRLEN)

 #define MDM_HL7800_APN_CMD_MAX_STRLEN (MDM_HL7800_APN_CMD_MAX_SIZE - 1)

 struct mdm_hl7800_apn {
 	char value[MDM_HL7800_APN_MAX_SIZE];
 	char username[MDM_HL7800_APN_USERNAME_MAX_SIZE];
 	char password[MDM_HL7800_APN_PASSWORD_MAX_SIZE];
 };

 #define MDM_HL7800_LTE_BAND_STR_SIZE 21
 #define MDM_HL7800_LTE_BAND_STRLEN (MDM_HL7800_LTE_BAND_STR_SIZE - 1)

 #define MDM_HL7800_OPERATOR_INDEX_SIZE 3
 #define MDM_HL7800_OPERATOR_INDEX_STRLEN (MDM_HL7800_OPERATOR_INDEX_SIZE - 1)

 #define MDM_HL7800_IMSI_MIN_STR_SIZE 15
 #define MDM_HL7800_IMSI_MAX_STR_SIZE 16
 #define MDM_HL7800_IMSI_MAX_STRLEN (MDM_HL7800_IMSI_MAX_STR_SIZE - 1)

 #define MDM_HL7800_MODEM_FUNCTIONALITY_SIZE 2
 #define MDM_HL7800_MODEM_FUNCTIONALITY_STRLEN                                  \
 	(MDM_HL7800_MODEM_FUNCTIONALITY_SIZE - 1)

 #define MDM_HL7800_MAX_GPS_STR_SIZE 33

 #define MDM_HL7800_MAX_POLTE_USER_ID_SIZE 16
 #define MDM_HL7800_MAX_POLTE_PASSWORD_SIZE 16
 #define MDM_HL7800_MAX_POLTE_LOCATION_STR_SIZE 33

 /* Assign the server error code (location response) to a value
  * that isn't used by locate response so that a single status
  * callback can be used.
  */
 #define MDM_HL7800_POLTE_SERVER_ERROR 10

 #define MDM_HL7800_SET_POLTE_USER_AND_PASSWORD_FMT_STR "AT%%POLTECMD=\"SERVERAUTH\",\"%s\",\"%s\""

 struct mdm_hl7800_site_survey {
 	uint32_t earfcn; /* EUTRA Absolute Radio Frequency Channel Number */
 	uint32_t cell_id;
 	int rsrp;
 	int rsrq;
 };

 enum mdm_hl7800_radio_mode { MDM_RAT_CAT_M1 = 0, MDM_RAT_CAT_NB1 };

 enum mdm_hl7800_event {
 	HL7800_EVENT_RESERVED = 0,
 	HL7800_EVENT_NETWORK_STATE_CHANGE,
 	HL7800_EVENT_APN_UPDATE,
 	HL7800_EVENT_RSSI,
 	HL7800_EVENT_SINR,
 	HL7800_EVENT_STARTUP_STATE_CHANGE,
 	HL7800_EVENT_SLEEP_STATE_CHANGE,
 	HL7800_EVENT_RAT,
 	HL7800_EVENT_BANDS,
 	HL7800_EVENT_ACTIVE_BANDS,
 	HL7800_EVENT_FOTA_STATE,
 	HL7800_EVENT_FOTA_COUNT,
 	HL7800_EVENT_REVISION,
 	HL7800_EVENT_GPS,
 	HL7800_EVENT_GPS_POSITION_STATUS,
 	HL7800_EVENT_POLTE_REGISTRATION,
 	HL7800_EVENT_POLTE_LOCATE_STATUS,
 	HL7800_EVENT_POLTE,
 	HL7800_EVENT_SITE_SURVEY,
 };

 enum mdm_hl7800_startup_state {
 	HL7800_STARTUP_STATE_READY = 0,
 	HL7800_STARTUP_STATE_WAITING_FOR_ACCESS_CODE,
 	HL7800_STARTUP_STATE_SIM_NOT_PRESENT,
 	HL7800_STARTUP_STATE_SIMLOCK,
 	HL7800_STARTUP_STATE_UNRECOVERABLE_ERROR,
 	HL7800_STARTUP_STATE_UNKNOWN,
 	HL7800_STARTUP_STATE_INACTIVE_SIM
 };

 enum mdm_hl7800_network_state {
 	HL7800_NOT_REGISTERED = 0,
 	HL7800_HOME_NETWORK,
 	HL7800_SEARCHING,
 	HL7800_REGISTRATION_DENIED,
 	HL7800_OUT_OF_COVERAGE,
 	HL7800_ROAMING,
 	HL7800_EMERGENCY = 8,
 	/* Laird defined states */
 	HL7800_UNABLE_TO_CONFIGURE = 0xf0
 };

 enum mdm_hl7800_sleep {
 	HL7800_SLEEP_UNINITIALIZED = 0,
 	HL7800_SLEEP_HIBERNATE,
 	HL7800_SLEEP_AWAKE,
 	HL7800_SLEEP_LITE_HIBERNATE,
 	HL7800_SLEEP_SLEEP,
 };

 enum mdm_hl7800_fota_state {
 	HL7800_FOTA_IDLE,
 	HL7800_FOTA_START,
 	HL7800_FOTA_WIP,
 	HL7800_FOTA_PAD,
 	HL7800_FOTA_SEND_EOT,
 	HL7800_FOTA_FILE_ERROR,
 	HL7800_FOTA_INSTALL,
 	HL7800_FOTA_REBOOT_AND_RECONFIGURE,
 	HL7800_FOTA_COMPLETE,
 };

 enum mdm_hl7800_functionality {
 	HL7800_FUNCTIONALITY_MINIMUM = 0,
 	HL7800_FUNCTIONALITY_FULL = 1,
 	HL7800_FUNCTIONALITY_AIRPLANE = 4
 };

 /* The modem reports state values as an enumeration and a string.
  * GPS values are reported with a type of value and string.
  */
 struct mdm_hl7800_compound_event {
 	uint8_t code;
 	char *string;
 };

 enum mdm_hl7800_gnss_event {
 	HL7800_GNSS_EVENT_INVALID = -1,
 	HL7800_GNSS_EVENT_INIT,
 	HL7800_GNSS_EVENT_START,
 	HL7800_GNSS_EVENT_STOP,
 	HL7800_GNSS_EVENT_POSITION,
 };

 enum mdm_hl7800_gnss_status {
 	HL7800_GNSS_STATUS_INVALID = -1,
 	HL7800_GNSS_STATUS_FAILURE,
 	HL7800_GNSS_STATUS_SUCCESS,
 };

 enum mdm_hl7800_gnss_position_event {
 	HL7800_GNSS_POSITION_EVENT_INVALID = -1,
 	HL7800_GNSS_POSITION_EVENT_LOST_OR_NOT_AVAILABLE_YET,
 	HL7800_GNSS_POSITION_EVENT_PREDICTION_AVAILABLE,
 	HL7800_GNSS_POSITION_EVENT_2D_AVAILABLE,
 	HL7800_GNSS_POSITION_EVENT_3D_AVAILABLE,
 	HL7800_GNSS_POSITION_EVENT_FIXED_TO_INVALID,
 };

 enum mdm_hl7800_gps_string_types {
 	HL7800_GPS_STR_LATITUDE,
 	HL7800_GPS_STR_LONGITUDE,
 	HL7800_GPS_STR_GPS_TIME,
 	HL7800_GPS_STR_FIX_TYPE,
 	HL7800_GPS_STR_HEPE,
 	HL7800_GPS_STR_ALTITUDE,
 	HL7800_GPS_STR_ALT_UNC,
 	HL7800_GPS_STR_DIRECTION,
 	HL7800_GPS_STR_HOR_SPEED,
 	HL7800_GPS_STR_VER_SPEED
 };

 /* status: negative errno, 0 on success
  * user and password aren't valid if status is non-zero.
  */
 struct mdm_hl7800_polte_registration_event_data {
 	int status;
 	char *user;
 	char *password;
 };

 /* status: negative errno, 0 on success, non-zero error code
  * Data is not valid if status is non-zero.
  */
 struct mdm_hl7800_polte_location_data {
 	uint32_t timestamp;
 	int status;
 	char latitude[MDM_HL7800_MAX_POLTE_LOCATION_STR_SIZE];
 	char longitude[MDM_HL7800_MAX_POLTE_LOCATION_STR_SIZE];
 	char confidence_in_meters[MDM_HL7800_MAX_POLTE_LOCATION_STR_SIZE];
 };

 /**
  * event - The type of event
  * event_data - Pointer to event specific data structure
  * HL7800_EVENT_NETWORK_STATE_CHANGE - compound event
  * HL7800_EVENT_APN_UPDATE - struct mdm_hl7800_apn
  * HL7800_EVENT_RSSI - int
  * HL7800_EVENT_SINR - int
  * HL7800_EVENT_STARTUP_STATE_CHANGE - compound event
  * HL7800_EVENT_SLEEP_STATE_CHANGE - compound event
  * HL7800_EVENT_RAT - int
  * HL7800_EVENT_BANDS - string
  * HL7800_EVENT_ACTIVE_BANDS - string
  * HL7800_EVENT_FOTA_STATE - compound event
  * HL7800_EVENT_FOTA_COUNT - uint32_t
  * HL7800_EVENT_REVISION - string
  * HL7800_EVENT_GPS - compound event
  * HL7800_EVENT_GPS_POSITION_STATUS int
  * HL7800_EVENT_POLTE_REGISTRATION mdm_hl7800_polte_registration_event_data
  * HL7800_EVENT_POLTE mdm_hl7800_polte_location_data
  * HL7800_EVENT_POLTE_LOCATE_STATUS int
  * HL7800_EVENT_SITE_SURVEY mdm_hl7800_site_survey
  */
 typedef void (*mdm_hl7800_event_callback_t)(enum mdm_hl7800_event event,
 					    void *event_data);

 /**
  * @brief Power off the HL7800
  *
  * @return int32_t 0 for success
  */
 int32_t mdm_hl7800_power_off(void);

 /**
  * @brief Reset the HL7800 (and allow it to reconfigure).
  *
  * @return int32_t 0 for success
  */
 int32_t mdm_hl7800_reset(void);

 /**
  * @brief Control the wake signals to the HL7800.
  * @note this API should only be used for debug purposes.
  *
  * @param awake True to keep the HL7800 awake, False to allow sleep
  */
 void mdm_hl7800_wakeup(bool awake);

 /**
  * @brief Send an AT command to the HL7800.
  * @note this API should only be used for debug purposes.
  *
  * @param data AT command string
  * @return int32_t 0 for success
  */
 int32_t mdm_hl7800_send_at_cmd(const uint8_t *data);

 /**
  * @brief Get the signal quality of the HL7800.
  * If CONFIG_MODEM_HL7800_RSSI_RATE_SECONDS is non-zero, then
  * this function returns the value from the last periodic read.
  * If CONFIG_MODEM_HL7800_RSSI_RATE_SECONDS is 0, then this
  * may cause the modem to be woken so that the values can be queried.
  *
  * @param rsrp Reference Signals Received Power (dBm)
  *             Range = -140 dBm to -44 dBm
  * @param sinr Signal to Interference plus Noise Ratio (dBm)
  *             Range = -128 dBm to 40dBm
  */
 void mdm_hl7800_get_signal_quality(int *rsrp, int *sinr);

 /**
  * @brief Get the SIM card ICCID
  *
  */
 char *mdm_hl7800_get_iccid(void);

 /**
  * @brief Get the HL7800 serial number
  *
  */
 char *mdm_hl7800_get_sn(void);

 /**
  * @brief Get the HL7800 IMEI
  *
  */
 char *mdm_hl7800_get_imei(void);

 /**
  * @brief Get the HL7800 firmware version
  *
  */
 char *mdm_hl7800_get_fw_version(void);

 /**
  * @brief Get the IMSI
  *
  */
 char *mdm_hl7800_get_imsi(void);

 /**
  * @brief Update the Access Point Name in the modem.
  *
  * @retval 0 on success, negative on failure.
  */
 int32_t mdm_hl7800_update_apn(char *access_point_name);

 /**
  * @brief Update the Radio Access Technology (mode).
  *
  * @retval 0 on success, negative on failure.
  */
 int32_t mdm_hl7800_update_rat(enum mdm_hl7800_radio_mode value);

 /**
  * @retval true if RAT value is valid
  */
 bool mdm_hl7800_valid_rat(uint8_t value);

 /**
  * @brief Register a function that is called when a modem event occurs.
  *
  * @param cb event callback
  */
 void mdm_hl7800_register_event_callback(mdm_hl7800_event_callback_t cb);

 /**
  * @brief Force modem module to generate status events.
  *
  * @note This can be used to get the current state when a module initializes
  * later than the modem.
  */
 void mdm_hl7800_generate_status_events(void);

 /**
  * @brief Get the local time from the modem's real time clock.
  *
  * @param tm time structure
  * @param offset The amount the local time is offset from GMT/UTC in seconds.
  * @return int32_t 0 if successful
  */
 int32_t mdm_hl7800_get_local_time(struct tm *tm, int32_t *offset);

 #ifdef CONFIG_MODEM_HL7800_FW_UPDATE
 /**
  * @brief Update the HL7800 via XMODEM protocol.  During the firmware update
  * no other modem fuctions will be available.
  *
  * @param file_path Absolute path of the update file
  *
  * @param 0 if successful
  */
 int32_t mdm_hl7800_update_fw(char *file_path);
 #endif

 /**
  * @brief Read the operator index from the modem.
  *
  * @retval negative error code, 0 on success
  */
 int32_t mdm_hl7800_get_operator_index(void);

 /**
  * @brief Get modem functionality
  *
  * @return int32_t negative errno on failure, else mdm_hl7800_functionality
  */
 int32_t mdm_hl7800_get_functionality(void);

 /**
  * @brief Set airplane, normal, or reduced functionality mode.
  * Airplane mode persists when reset.
  *
  * @note Boot functionality is also controlled by Kconfig
  * MODEM_HL7800_BOOT_IN_AIRPLANE_MODE.
  *
  * @param mode
  * @return int32_t negative errno, 0 on success
  */
 int32_t mdm_hl7800_set_functionality(enum mdm_hl7800_functionality mode);

 /**
  * @brief When rate is non-zero: Put modem into Airplane mode. Enable GPS and
  * generate HL7800_EVENT_GPS events.
  * When zero: Disable GPS and put modem into normal mode.
  *
  * @note Airplane mode isn't cleared when the modem is reset.
  *
  * @param rate in seconds to query location
  * @return int32_t negative errno, 0 on success
  */
 int32_t mdm_hl7800_set_gps_rate(uint32_t rate);

 /**
  * @brief Register modem/SIM with polte.io
  *
  * @note It takes around 30 seconds for HL7800_EVENT_POLTE_REGISTRATION to
  * be generated.  If the applications saves the user and password
  * information into non-volatile memory, then this command
  * only needs to be run once.
  *
  * @return int32_t negative errno, 0 on success
  */
 int32_t mdm_hl7800_polte_register(void);

 /**
  * @brief Enable PoLTE.
  *
  * @param user from polte.io or register command callback
  * @param password from polte.io register command callback
  * @return int32_t negative errno, 0 on success
  */
 int32_t mdm_hl7800_polte_enable(char *user, char *password);

 /**
  * @brief Locate device using PoLTE.
  *
  * @note The first HL7800_EVENT_POLTE_LOCATE_STATUS event indicates
  * the status of issuing the locate command. The second event
  * requires 20-120 seconds to be generated and it contains the
  * location information (or indicates server failure).
  *
  * @return int32_t negative errno, 0 on success
  */
 int32_t mdm_hl7800_polte_locate(void);

 /**
  * @brief Perform a site survey.  This command may return different values
  * each time it is run (depending on what is in range).
  *
  * HL7800_EVENT_SITE_SURVEY is generated for each response received from modem.
  *
  * @retval negative error code, 0 on success
  */
 int32_t mdm_hl7800_perform_site_survey(void);

 /**
  * @brief Set desired sleep level. Requires MODEM_HL7800_LOW_POWER_MODE
  *
  * @param level (sleep, lite hibernate, or hibernate)
  * @return int negative errno, 0 on success
  */
 int mdm_hl7800_set_desired_sleep_level(enum mdm_hl7800_sleep level);

 /**
  * @brief Allows mapping of WAKE_UP signal
  * to a user accessible test point on the development board.
  *
  * @param func to be called when application requests modem wake/sleep.
  * The state parameter of the callback is 1 when modem should stay awake,
  * 0 when modem can sleep
  */
 void mdm_hl7800_register_wake_test_point_callback(void (*func)(int state));

 /**
  * @brief Allows mapping of P1.12_GPIO6 signal
  * to a user accessible test point on the development board.
  *
  * @param func to be called when modem wakes/sleeps is sleep level is
  * hibernate or lite hibernate.
  * The state parameter of the callback follows gpio_pin_get definitions,
  * but will default high if there is an error reading pin
  */
 void mdm_hl7800_register_gpio6_callback(void (*func)(int state));

 /**
  * @brief Allows mapping of UART1_CTS signal
  * to a user accessible test point on the development board.
  *
  * @param func to be called when CTS state changes if sleep level is sleep.
  * The state parameter of the callback follows gpio_pin_get definitions,
  * but will default low if there is an error reading pin
  */
 void mdm_hl7800_register_cts_callback(void (*func)(int state));

 /**
  * @brief Set the bands available for the LTE connection
  *
  * @param bands Band bitmap in hexadecimal format without the 0x prefix.
  * Leading 0's for the value can be ommited.
  *
  * @return int32_t negative errno, 0 on success
  */
 int32_t mdm_hl7800_set_bands(const char *bands);

 #ifdef __cplusplus
 }
 #endif

 #endif /* ZEPHYR_INCLUDE_DRIVERS_MODEM_HL7800_H_ */
	/** @file
	* @brief HL7800 modem public API header file.
	*
	* Allows an application to control the HL7800 modem.
	*
	* Copyright (c) 2020 Laird Connectivity
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#ifndef ZEPHYR_INCLUDE_DRIVERS_MODEM_HL7800_H_
	#define ZEPHYR_INCLUDE_DRIVERS_MODEM_HL7800_H_

	#ifdef __cplusplus
	extern "C" {
	#endif

	#include <zephyr/types.h>

	#include <time.h>

	/* The size includes the NUL character, the strlen doesn't */
	#define MDM_HL7800_REVISION_MAX_SIZE 29
	#define MDM_HL7800_REVISION_MAX_STRLEN (MDM_HL7800_REVISION_MAX_SIZE - 1)

	#define MDM_HL7800_IMEI_SIZE 16
	#define MDM_HL7800_IMEI_STRLEN (MDM_HL7800_IMEI_SIZE - 1)

	#define MDM_HL7800_ICCID_SIZE 21
	#define MDM_HL7800_ICCID_STRLEN (MDM_HL7800_ICCID_SIZE - 1)

	#define MDM_HL7800_SERIAL_NUMBER_SIZE 15
	#define MDM_HL7800_SERIAL_NUMBER_STRLEN (MDM_HL7800_SERIAL_NUMBER_SIZE - 1)

	#define MDM_HL7800_APN_MAX_SIZE 64
	#define MDM_HL7800_APN_USERNAME_MAX_SIZE 65
	#define MDM_HL7800_APN_PASSWORD_MAX_SIZE 65

	#define MDM_HL7800_APN_MAX_STRLEN (MDM_HL7800_APN_MAX_SIZE - 1)
	#define MDM_HL7800_APN_USERNAME_MAX_STRLEN \
	(MDM_HL7800_APN_USERNAME_MAX_SIZE - 1)
	#define MDM_HL7800_APN_PASSWORD_MAX_STRLEN \
	(MDM_HL7800_APN_PASSWORD_MAX_SIZE - 1)

	#define MDM_HL7800_APN_CMD_MAX_SIZE \
	(32 + MDM_HL7800_APN_USERNAME_MAX_STRLEN + \
	MDM_HL7800_APN_PASSWORD_MAX_STRLEN)

	#define MDM_HL7800_APN_CMD_MAX_STRLEN (MDM_HL7800_APN_CMD_MAX_SIZE - 1)

	struct mdm_hl7800_apn {
	char value[MDM_HL7800_APN_MAX_SIZE];
	char username[MDM_HL7800_APN_USERNAME_MAX_SIZE];
	char password[MDM_HL7800_APN_PASSWORD_MAX_SIZE];
	};

	#define MDM_HL7800_LTE_BAND_STR_SIZE 21
	#define MDM_HL7800_LTE_BAND_STRLEN (MDM_HL7800_LTE_BAND_STR_SIZE - 1)

	#define MDM_HL7800_OPERATOR_INDEX_SIZE 3
	#define MDM_HL7800_OPERATOR_INDEX_STRLEN (MDM_HL7800_OPERATOR_INDEX_SIZE - 1)

	#define MDM_HL7800_IMSI_MIN_STR_SIZE 15
	#define MDM_HL7800_IMSI_MAX_STR_SIZE 16
	#define MDM_HL7800_IMSI_MAX_STRLEN (MDM_HL7800_IMSI_MAX_STR_SIZE - 1)

	#define MDM_HL7800_MODEM_FUNCTIONALITY_SIZE 2
	#define MDM_HL7800_MODEM_FUNCTIONALITY_STRLEN \
	(MDM_HL7800_MODEM_FUNCTIONALITY_SIZE - 1)

	#define MDM_HL7800_MAX_GPS_STR_SIZE 33

	#define MDM_HL7800_MAX_POLTE_USER_ID_SIZE 16
	#define MDM_HL7800_MAX_POLTE_PASSWORD_SIZE 16
	#define MDM_HL7800_MAX_POLTE_LOCATION_STR_SIZE 33

	/* Assign the server error code (location response) to a value
	* that isn't used by locate response so that a single status
	* callback can be used.
	*/
	#define MDM_HL7800_POLTE_SERVER_ERROR 10

	#define MDM_HL7800_SET_POLTE_USER_AND_PASSWORD_FMT_STR "AT%%POLTECMD=\"SERVERAUTH\",\"%s\",\"%s\""

	struct mdm_hl7800_site_survey {
	uint32_t earfcn; /* EUTRA Absolute Radio Frequency Channel Number */
	uint32_t cell_id;
	int rsrp;
	int rsrq;
	};

	enum mdm_hl7800_radio_mode { MDM_RAT_CAT_M1 = 0, MDM_RAT_CAT_NB1 };

	enum mdm_hl7800_event {
	HL7800_EVENT_RESERVED = 0,
	HL7800_EVENT_NETWORK_STATE_CHANGE,
	HL7800_EVENT_APN_UPDATE,
	HL7800_EVENT_RSSI,
	HL7800_EVENT_SINR,
	HL7800_EVENT_STARTUP_STATE_CHANGE,
	HL7800_EVENT_SLEEP_STATE_CHANGE,
	HL7800_EVENT_RAT,
	HL7800_EVENT_BANDS,
	HL7800_EVENT_ACTIVE_BANDS,
	HL7800_EVENT_FOTA_STATE,
	HL7800_EVENT_FOTA_COUNT,
	HL7800_EVENT_REVISION,
	HL7800_EVENT_GPS,
	HL7800_EVENT_GPS_POSITION_STATUS,
	HL7800_EVENT_POLTE_REGISTRATION,
	HL7800_EVENT_POLTE_LOCATE_STATUS,
	HL7800_EVENT_POLTE,
	HL7800_EVENT_SITE_SURVEY,
	};

	enum mdm_hl7800_startup_state {
	HL7800_STARTUP_STATE_READY = 0,
	HL7800_STARTUP_STATE_WAITING_FOR_ACCESS_CODE,
	HL7800_STARTUP_STATE_SIM_NOT_PRESENT,
	HL7800_STARTUP_STATE_SIMLOCK,
	HL7800_STARTUP_STATE_UNRECOVERABLE_ERROR,
	HL7800_STARTUP_STATE_UNKNOWN,
	HL7800_STARTUP_STATE_INACTIVE_SIM
	};

	enum mdm_hl7800_network_state {
	HL7800_NOT_REGISTERED = 0,
	HL7800_HOME_NETWORK,
	HL7800_SEARCHING,
	HL7800_REGISTRATION_DENIED,
	HL7800_OUT_OF_COVERAGE,
	HL7800_ROAMING,
	HL7800_EMERGENCY = 8,
	/* Laird defined states */
	HL7800_UNABLE_TO_CONFIGURE = 0xf0
	};

	enum mdm_hl7800_sleep {
	HL7800_SLEEP_UNINITIALIZED = 0,
	HL7800_SLEEP_HIBERNATE,
	HL7800_SLEEP_AWAKE,
	HL7800_SLEEP_LITE_HIBERNATE,
	HL7800_SLEEP_SLEEP,
	};

	enum mdm_hl7800_fota_state {
	HL7800_FOTA_IDLE,
	HL7800_FOTA_START,
	HL7800_FOTA_WIP,
	HL7800_FOTA_PAD,
	HL7800_FOTA_SEND_EOT,
	HL7800_FOTA_FILE_ERROR,
	HL7800_FOTA_INSTALL,
	HL7800_FOTA_REBOOT_AND_RECONFIGURE,
	HL7800_FOTA_COMPLETE,
	};

	enum mdm_hl7800_functionality {
	HL7800_FUNCTIONALITY_MINIMUM = 0,
	HL7800_FUNCTIONALITY_FULL = 1,
	HL7800_FUNCTIONALITY_AIRPLANE = 4
	};

	/* The modem reports state values as an enumeration and a string.
	* GPS values are reported with a type of value and string.
	*/
	struct mdm_hl7800_compound_event {
	uint8_t code;
	char *string;
	};

	enum mdm_hl7800_gnss_event {
	HL7800_GNSS_EVENT_INVALID = -1,
	HL7800_GNSS_EVENT_INIT,
	HL7800_GNSS_EVENT_START,
	HL7800_GNSS_EVENT_STOP,
	HL7800_GNSS_EVENT_POSITION,
	};

	enum mdm_hl7800_gnss_status {
	HL7800_GNSS_STATUS_INVALID = -1,
	HL7800_GNSS_STATUS_FAILURE,
	HL7800_GNSS_STATUS_SUCCESS,
	};

	enum mdm_hl7800_gnss_position_event {
	HL7800_GNSS_POSITION_EVENT_INVALID = -1,
	HL7800_GNSS_POSITION_EVENT_LOST_OR_NOT_AVAILABLE_YET,
	HL7800_GNSS_POSITION_EVENT_PREDICTION_AVAILABLE,
	HL7800_GNSS_POSITION_EVENT_2D_AVAILABLE,
	HL7800_GNSS_POSITION_EVENT_3D_AVAILABLE,
	HL7800_GNSS_POSITION_EVENT_FIXED_TO_INVALID,
	};

	enum mdm_hl7800_gps_string_types {
	HL7800_GPS_STR_LATITUDE,
	HL7800_GPS_STR_LONGITUDE,
	HL7800_GPS_STR_GPS_TIME,
	HL7800_GPS_STR_FIX_TYPE,
	HL7800_GPS_STR_HEPE,
	HL7800_GPS_STR_ALTITUDE,
	HL7800_GPS_STR_ALT_UNC,
	HL7800_GPS_STR_DIRECTION,
	HL7800_GPS_STR_HOR_SPEED,
	HL7800_GPS_STR_VER_SPEED
	};

	/* status: negative errno, 0 on success
	* user and password aren't valid if status is non-zero.
	*/
	struct mdm_hl7800_polte_registration_event_data {
	int status;
	char *user;
	char *password;
	};

	/* status: negative errno, 0 on success, non-zero error code
	* Data is not valid if status is non-zero.
	*/
	struct mdm_hl7800_polte_location_data {
	uint32_t timestamp;
	int status;
	char latitude[MDM_HL7800_MAX_POLTE_LOCATION_STR_SIZE];
	char longitude[MDM_HL7800_MAX_POLTE_LOCATION_STR_SIZE];
	char confidence_in_meters[MDM_HL7800_MAX_POLTE_LOCATION_STR_SIZE];
	};

	/**
	* event - The type of event
	* event_data - Pointer to event specific data structure
	* HL7800_EVENT_NETWORK_STATE_CHANGE - compound event
	* HL7800_EVENT_APN_UPDATE - struct mdm_hl7800_apn
	* HL7800_EVENT_RSSI - int
	* HL7800_EVENT_SINR - int
	* HL7800_EVENT_STARTUP_STATE_CHANGE - compound event
	* HL7800_EVENT_SLEEP_STATE_CHANGE - compound event
	* HL7800_EVENT_RAT - int
	* HL7800_EVENT_BANDS - string
	* HL7800_EVENT_ACTIVE_BANDS - string
	* HL7800_EVENT_FOTA_STATE - compound event
	* HL7800_EVENT_FOTA_COUNT - uint32_t
	* HL7800_EVENT_REVISION - string
	* HL7800_EVENT_GPS - compound event
	* HL7800_EVENT_GPS_POSITION_STATUS int
	* HL7800_EVENT_POLTE_REGISTRATION mdm_hl7800_polte_registration_event_data
	* HL7800_EVENT_POLTE mdm_hl7800_polte_location_data
	* HL7800_EVENT_POLTE_LOCATE_STATUS int
	* HL7800_EVENT_SITE_SURVEY mdm_hl7800_site_survey
	*/
	typedef void (*mdm_hl7800_event_callback_t)(enum mdm_hl7800_event event,
	void *event_data);

	/**
	* @brief Power off the HL7800
	*
	* @return int32_t 0 for success
	*/
	int32_t mdm_hl7800_power_off(void);

	/**
	* @brief Reset the HL7800 (and allow it to reconfigure).
	*
	* @return int32_t 0 for success
	*/
	int32_t mdm_hl7800_reset(void);

	/**
	* @brief Control the wake signals to the HL7800.
	* @note this API should only be used for debug purposes.
	*
	* @param awake True to keep the HL7800 awake, False to allow sleep
	*/
	void mdm_hl7800_wakeup(bool awake);

	/**
	* @brief Send an AT command to the HL7800.
	* @note this API should only be used for debug purposes.
	*
	* @param data AT command string
	* @return int32_t 0 for success
	*/
	int32_t mdm_hl7800_send_at_cmd(const uint8_t *data);

	/**
	* @brief Get the signal quality of the HL7800.
	* If CONFIG_MODEM_HL7800_RSSI_RATE_SECONDS is non-zero, then
	* this function returns the value from the last periodic read.
	* If CONFIG_MODEM_HL7800_RSSI_RATE_SECONDS is 0, then this
	* may cause the modem to be woken so that the values can be queried.
	*
	* @param rsrp Reference Signals Received Power (dBm)
	* Range = -140 dBm to -44 dBm
	* @param sinr Signal to Interference plus Noise Ratio (dBm)
	* Range = -128 dBm to 40dBm
	*/
	void mdm_hl7800_get_signal_quality(int rsrp, int sinr);

	/**
	* @brief Get the SIM card ICCID
	*
	*/
	char *mdm_hl7800_get_iccid(void);

	/**
	* @brief Get the HL7800 serial number
	*
	*/
	char *mdm_hl7800_get_sn(void);

	/**
	* @brief Get the HL7800 IMEI
	*
	*/
	char *mdm_hl7800_get_imei(void);

	/**
	* @brief Get the HL7800 firmware version
	*
	*/
	char *mdm_hl7800_get_fw_version(void);

	/**
	* @brief Get the IMSI
	*
	*/
	char *mdm_hl7800_get_imsi(void);

	/**
	* @brief Update the Access Point Name in the modem.
	*
	* @retval 0 on success, negative on failure.
	*/
	int32_t mdm_hl7800_update_apn(char *access_point_name);

	/**
	* @brief Update the Radio Access Technology (mode).
	*
	* @retval 0 on success, negative on failure.
	*/
	int32_t mdm_hl7800_update_rat(enum mdm_hl7800_radio_mode value);

	/**
	* @retval true if RAT value is valid
	*/
	bool mdm_hl7800_valid_rat(uint8_t value);

	/**
	* @brief Register a function that is called when a modem event occurs.
	*
	* @param cb event callback
	*/
	void mdm_hl7800_register_event_callback(mdm_hl7800_event_callback_t cb);

	/**
	* @brief Force modem module to generate status events.
	*
	* @note This can be used to get the current state when a module initializes
	* later than the modem.
	*/
	void mdm_hl7800_generate_status_events(void);

	/**
	* @brief Get the local time from the modem's real time clock.
	*
	* @param tm time structure
	* @param offset The amount the local time is offset from GMT/UTC in seconds.
	* @return int32_t 0 if successful
	*/
	int32_t mdm_hl7800_get_local_time(struct tm tm, int32_t offset);

	#ifdef CONFIG_MODEM_HL7800_FW_UPDATE
	/**
	* @brief Update the HL7800 via XMODEM protocol. During the firmware update
	* no other modem fuctions will be available.
	*
	* @param file_path Absolute path of the update file
	*
	* @param 0 if successful
	*/
	int32_t mdm_hl7800_update_fw(char *file_path);
	#endif

	/**
	* @brief Read the operator index from the modem.
	*
	* @retval negative error code, 0 on success
	*/
	int32_t mdm_hl7800_get_operator_index(void);

	/**
	* @brief Get modem functionality
	*
	* @return int32_t negative errno on failure, else mdm_hl7800_functionality
	*/
	int32_t mdm_hl7800_get_functionality(void);

	/**
	* @brief Set airplane, normal, or reduced functionality mode.
	* Airplane mode persists when reset.
	*
	* @note Boot functionality is also controlled by Kconfig
	* MODEM_HL7800_BOOT_IN_AIRPLANE_MODE.
	*
	* @param mode
	* @return int32_t negative errno, 0 on success
	*/
	int32_t mdm_hl7800_set_functionality(enum mdm_hl7800_functionality mode);

	/**
	* @brief When rate is non-zero: Put modem into Airplane mode. Enable GPS and
	* generate HL7800_EVENT_GPS events.
	* When zero: Disable GPS and put modem into normal mode.
	*
	* @note Airplane mode isn't cleared when the modem is reset.
	*
	* @param rate in seconds to query location
	* @return int32_t negative errno, 0 on success
	*/
	int32_t mdm_hl7800_set_gps_rate(uint32_t rate);

	/**
	* @brief Register modem/SIM with polte.io
	*
	* @note It takes around 30 seconds for HL7800_EVENT_POLTE_REGISTRATION to
	* be generated. If the applications saves the user and password
	* information into non-volatile memory, then this command
	* only needs to be run once.
	*
	* @return int32_t negative errno, 0 on success
	*/
	int32_t mdm_hl7800_polte_register(void);

	/**
	* @brief Enable PoLTE.
	*
	* @param user from polte.io or register command callback
	* @param password from polte.io register command callback
	* @return int32_t negative errno, 0 on success
	*/
	int32_t mdm_hl7800_polte_enable(char user, char password);

	/**
	* @brief Locate device using PoLTE.
	*
	* @note The first HL7800_EVENT_POLTE_LOCATE_STATUS event indicates
	* the status of issuing the locate command. The second event
	* requires 20-120 seconds to be generated and it contains the
	* location information (or indicates server failure).
	*
	* @return int32_t negative errno, 0 on success
	*/
	int32_t mdm_hl7800_polte_locate(void);

	/**
	* @brief Perform a site survey. This command may return different values
	* each time it is run (depending on what is in range).
	*
	* HL7800_EVENT_SITE_SURVEY is generated for each response received from modem.
	*
	* @retval negative error code, 0 on success
	*/
	int32_t mdm_hl7800_perform_site_survey(void);

	/**
	* @brief Set desired sleep level. Requires MODEM_HL7800_LOW_POWER_MODE
	*
	* @param level (sleep, lite hibernate, or hibernate)
	* @return int negative errno, 0 on success
	*/
	int mdm_hl7800_set_desired_sleep_level(enum mdm_hl7800_sleep level);

	/**
	* @brief Allows mapping of WAKE_UP signal
	* to a user accessible test point on the development board.
	*
	* @param func to be called when application requests modem wake/sleep.
	* The state parameter of the callback is 1 when modem should stay awake,
	* 0 when modem can sleep
	*/
	void mdm_hl7800_register_wake_test_point_callback(void (*func)(int state));

	/**
	* @brief Allows mapping of P1.12_GPIO6 signal
	* to a user accessible test point on the development board.
	*
	* @param func to be called when modem wakes/sleeps is sleep level is
	* hibernate or lite hibernate.
	* The state parameter of the callback follows gpio_pin_get definitions,
	* but will default high if there is an error reading pin
	*/
	void mdm_hl7800_register_gpio6_callback(void (*func)(int state));

	/**
	* @brief Allows mapping of UART1_CTS signal
	* to a user accessible test point on the development board.
	*
	* @param func to be called when CTS state changes if sleep level is sleep.
	* The state parameter of the callback follows gpio_pin_get definitions,
	* but will default low if there is an error reading pin
	*/
	void mdm_hl7800_register_cts_callback(void (*func)(int state));

	/**
	* @brief Set the bands available for the LTE connection
	*
	* @param bands Band bitmap in hexadecimal format without the 0x prefix.
	* Leading 0's for the value can be ommited.
	*
	* @return int32_t negative errno, 0 on success
	*/
	int32_t mdm_hl7800_set_bands(const char *bands);

	#ifdef __cplusplus
	}
	#endif

	#endif /* ZEPHYR_INCLUDE_DRIVERS_MODEM_HL7800_H_ */