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New profile feature: In the past the OSTC provide just one instance for settings. If for example a diver switched from OC to CCR configuration several settings had to be modified. To improve this and to be more flexible in adapting the OSTC to differend dive scenarions the usage of up to 4 profiles has beem introduced. The profiles are copies of the common settings but stored in a separate, previously not used, flash section => no impact to existings settings handling. For access to the profiles the existing setting flash functions are reused. To enable this a parameter war introduced which defines the target of the operation (common settings or profiles).
author Ideenmodellierer
date Sun, 07 Sep 2025 19:03:44 +0200
parents efb7d18cc564
children
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/**
  ******************************************************************************
  * @file    uartProtocol_GNSS.h
  * @author  heinrichs weikamp gmbh
  * @version V0.0.1
  * @date    30-Sep-2024
  * @brief	 Interface functionality for operation of gnss devices
  *
  @verbatim
  ==============================================================================
                        ##### How to use #####
  ==============================================================================
  @endverbatim
  ******************************************************************************
  * @attention
  *
  * <h2><center>&copy; COPYRIGHT(c) 2014 heinrichs weikamp</center></h2>
  *
  ******************************************************************************
  */

/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef UART_PROTOCOL_GNSS_H
#define UART_PROTOCOL_GNSS_H

#ifdef __cplusplus
 extern "C" {
#endif

/* Includes ------------------------------------------------------------------*/
#include "configuration.h"
#include "stm32f4xx_hal.h"

 typedef enum
  {
		UART_GNSS_INIT = 0,		/* Default Status for every sensor type */
		UART_GNSS_IDLE,			/* sensor detected and no communication pending */
		UART_GNSS_ERROR,		/* Error message received from sensor */
		UART_GNSS_WARMUP = 10,
		UART_GNSS_INACTIVE,		/* no requests to the receiver */
		UART_GNSS_LOADCONF_0,
		UART_GNSS_LOADCONF_1,
		UART_GNSS_LOADCONF_2,
		UART_GNSS_SETMODE_MOBILE,
		UART_GNSS_SETDATE_TIME,
		UART_GNSS_SET_POSITION,
		UART_GNSS_PWRDOWN,
		UART_GNSS_PWRUP,
		UART_GNSS_SETCONF,		/* save configuration */
		UART_GNSS_GET_PVT,
		UART_GNSS_GET_SAT
  } uartGnssStatus_t;

  typedef enum
  {
  	GNSSRX_READY = 0,			/* Initial state */
	GNSSRX_DETECT_HEADER_0,
	GNSSRX_DETECT_HEADER_1,
	GNSSRX_DETECT_HEADER_2,
	GNSSRX_DETECT_HEADER_3,
	GNSSRX_DETECT_LENGTH_0,
	GNSSRX_DETECT_LENGTH_1,
	GNSSRX_DETECT_ACK_0,
	GNSSRX_DETECT_ACK_1,
	GNSSRX_DETECT_ACK_2,
	GNSSRX_DETECT_ACK_3,
	GNSSRX_READ_DATA,
	GNSSRX_READ_CK_A,
	GNSSRX_READ_CK_B,
  } receiveStateGnss_t;


  typedef enum
  {
  	GNSSCMD_LOADCONF_0 = 0,
	GNSSCMD_LOADCONF_1,
	GNSSCMD_LOADCONF_2,
	GNSSCMD_SETMOBILE,
	GNSSCMD_SETDATETIME,
	GNSSCMD_SET_POSITION,
	GNSSCMD_MODE_PWS,
	GNSSCMD_MODE_NORMAL,
	GNSSCMD_SET_CONFIG,
	GNSSCMD_GET_NAV_DATA,
	GNSSCMD_GET_PVT_DATA,
	GNSSCMD_GET_POSLLH_DATA,
	GNSSCMD_GET_NAVSAT_DATA
  } gnssSensorCmd_t;

  typedef struct
  {
    uint8_t class;
    uint8_t id;
  } gnssRequest_s;

void uartGnss_ReqPowerDown(uint8_t request);
uint8_t uartGnss_isPowerDownRequested(void);
uartGnssStatus_t uartGnss_GetState(void);
void uartGnss_SetState(uartGnssStatus_t newState);
void uartGnss_Control(void);
void uartGnss_ProcessData(uint8_t data);
uint8_t uartGnss_isSensorConnected();
void uartGnss_SendCmd(uint8_t GnssCmd);

#endif /* UART_PROTOCOL_GNSS_H */