ST / X_NUCLEO_IDB0XA1

BLE_API wrapper library for STMicroelectronics' BlueNRG Bluetooth Low Energy expansion board shield (Component)

Dependents:   Nucleo_Zumo_BLE_IDB04A1 contest_IOT5 contest_IOT6 contest_IOT_10 ... more

Fork of X_NUCLEO_IDB0XA1 by ST Expansion SW Team

Arduino Connector Compatibility Warning

X-NUCLEO-IDB04A1 and X-NUCLEO-IDB05A1 are Arduino compatible with an exception: instead of using pin D13 for the SPI clock, they use pin D3. The default configuration for this library is having the SPI clock on pin D3.

To be fully Arduino compatible, X-NUCLEO-IDB04A1 and X-NUCLEO-IDB05A1 need a small HW patch.

For X-NUCLEO-IDB04A1 this patch consists in removing zero resistor R10 and instead soldering zero resistor R11. For X-NUCLEO-IDB05A1 this patch consists in removing zero resistor R4 and instead soldering zero resistor R6.

In case you patch your board, then you also have to configure this library to use pin D13 to drive the SPI clock (see macro IDB0XA1_D13_PATCH in file x_nucleo_idb0xa1_targets.h).

If you use pin D13 for the SPI clock, please be aware that on STM32 Nucleo boards you may not drive the LED, otherwise you will get a conflict: the LED on STM32 Nucleo boards is connected to pin D13.

Referring to the current list of tested platforms (see X-NUCLEO-IDB04A1 and X-NUCLEO-IDB05A1 pages), the patch is required by ST-Nucleo-F103RB; ST-Nucleo-F302R8; ST-Nucleo-F411RE; and ST-Nucleo-F446RE.

x-nucleo-idb0xa1/bluenrg-hci/bluenrg_utils.h

Committer:
Andrea Palmieri
Date:
2016-09-16
Revision:
307:fa98703ece8e
Parent:
294:fd19310b086d

File content as of revision 307:fa98703ece8e:

/******************** (C) COPYRIGHT 2014 STMicroelectronics ********************
* File Name          : bluenrg_utils.h
* Author             : AMS - VMA, RF Application Team
* Version            : V1.0.1
* Date               : 03-October-2014
* Description        : Header file for BlueNRG utility functions 
********************************************************************************
* THE PRESENT FIRMWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS
* WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE TIME.
* AS A RESULT, STMICROELECTRONICS SHALL NOT BE HELD LIABLE FOR ANY DIRECT,
* INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING FROM THE
* CONTENT OF SUCH FIRMWARE AND/OR THE USE MADE BY CUSTOMERS OF THE CODING
* INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS.
*******************************************************************************/
/**
 * @file  bluenrg_utils.h
 * @brief BlueNRG IFR updater & BlueNRG stack updater utility APIs description
 *
 * <!-- Copyright 2014 by STMicroelectronics.  All rights reserved.       *80*-->
**/
/* Define to prevent recursive inclusion -------------------------------------*/
#ifndef __BLUENRG_UTILS_H
#define __BLUENRG_UTILS_H

#ifdef __cplusplus
 extern "C" {
#endif

/* Includes ------------------------------------------------------------------*/
#include "ble_hal_types.h" 
#include "ble_compiler.h"

/* Exported types ------------------------------------------------------------*/
typedef struct{
  uint8_t stack_mode;
  uint8_t day;
  uint8_t month;
  uint8_t year;
  uint16_t slave_sca_ppm;
  uint8_t master_sca;
  uint16_t hs_startup_time; /* In system time units*/
} IFR_config2_TypeDef;

/**
 * Structure inside IFR for configuration options. 
 */
typedef __packed struct{
  uint8_t cold_ana_act_config_table[64];
  uint8_t hot_ana_config_table[64];
  uint8_t stack_mode;
  uint8_t gpio_config;
  uint8_t rsrvd1[2];
  uint32_t rsrvd2[3];
  uint32_t max_conn_event_time;
  uint32_t ls_crystal_period;
  uint32_t ls_crystal_freq;
  uint16_t slave_sca_ppm;
  uint8_t master_sca;
  uint8_t rsrvd3;
  uint16_t hs_startup_time; /* In system time units*/
  uint8_t rsrvd4[2];
  uint32_t uid;
  uint8_t rsrvd5;
  uint8_t year;  
  uint8_t month;
  uint8_t day;
  uint32_t unused[5];
} PACKED IFR_config_TypeDef;

/* Exported constants --------------------------------------------------------*/
extern const IFR_config_TypeDef IFR_config;

/* Exported macros -----------------------------------------------------------*/
#define FROM_US_TO_SYS_TIME(us)      ((uint16_t)(us/2.4414))
#define FROM_SYS_TIME_TO_US(sys)     ((uint16_t)(sys*2.4414))

/* Convert 2 digit BCD number to an integer */
#define BCD_TO_INT(bcd) ((bcd & 0xF) + ((bcd & 0xF0) >> 4)*10)

/* Convert 2 digit number to a BCD number */
#define INT_TO_BCD(n) ((((uint8_t)n/10)<<4) + (uint8_t)n%10)

/** 
  * Return values 
  */ 
#define BLE_UTIL_SUCCESS                 0
#define BLE_UTIL_UNSUPPORTED_VERSION     1
#define BLE_UTIL_WRONG_IMAGE_SIZE        2
#define BLE_UTIL_ACI_ERROR               3
#define BLE_UTIL_CRC_ERROR               4
#define BLE_UTIL_PARSE_ERROR             5
#define BLE_UTIL_WRONG_VERIFY            6

/* Exported functions ------------------------------------------------------- */ 
/**
  * @brief  Flash a new firmware using internal bootloader.
  * @param  fw_image     Pointer to the firmware image (raw binary data,
  *                      little-endian).
  * @param  fw_size      Size of the firmware image. The firmware image size shall
  *                      be multiple of 4 bytes.
  * @retval int      It returns 0 if successful, or a number not equal to 0 in
  *                  case of error (ACI_ERROR, UNSUPPORTED_VERSION,
  *                  WRONG_IMAGE_SIZE, CRC_ERROR)
  */
int program_device(const uint8_t *fw_image, uint32_t fw_size);

/**
  * @brief  Read raw data from IFR (3 64-bytes blocks).
  * @param  data     Pointer to the buffer that will contain the read data.
  *                  Its size must be 192 bytes. This data can be parsed by
  *                  parse_IFR_data_config().
  * @retval int      It returns 0 if successful, or a number not equal to 0 in
  *                  case of error (ACI_ERROR, UNSUPPORTED_VERSION)
  */
int read_IFR(uint8_t data[192]);

/**
  * @brief  Verify raw data from IFR (3 64-bytes blocks).
  * @param  ifr_data Pointer to the buffer that will contain the data to verify.
  *                  Its size must be 192 bytes.
  * @retval int      It returns 0 if successful, or a number not equal to 0 in
                     case of error (ACI_ERROR, BLE_UTIL_WRONG_VERIFY)
  */
uint8_t verify_IFR(const IFR_config_TypeDef *ifr_data);

/**
  * @brief  Program raw data to IFR (3 64-bytes blocks).
  * @param  ifr_image     Pointer to the buffer that will contain the data to program.
  *                  Its size must be 192 bytes.
  * @retval int      It returns 0 if successful
  */
int program_IFR(const IFR_config_TypeDef *ifr_image);

/**
  * @brief  Parse IFR raw data.
  * @param  data     Pointer to the raw data: last 64 bytes read from IFR sector.
  * @param  IFR_config     Data structure that will be filled with parsed data.
  * @retval None
  */
void parse_IFR_data_config(const uint8_t data[64], IFR_config2_TypeDef *IFR_config);

/**
  * @brief  Check for the correctness of parsed data.
  * @param  IFR_config     Data structure filled with parsed data.
  * @retval int      It returns 0 if successful, or PARSE_ERROR in case data is
  *                  not correct.
  */
int IFR_validate(IFR_config2_TypeDef *IFR_config);

/**
  * @brief  Modify IFR data. (Last 64-bytes block).
  * @param  IFR_config   Structure that contains the new parameters inside the
  *                      IFR configuration data.
  * @note   It is highly recommended to parse the IFR configuration from
  *         a working IFR block (this should be done with parse_IFR_data_config()).
  *         Then it is possible to write the new parameters inside the IFR_config
  *         structure.
  * @param  data     Pointer to the buffer that contains the original data. It
  *                  will be modified according to the new data in the IFR_config
  *                  structure. Then this data must be written in the last
  *                  64-byte block in the IFR.
  *                  Its size must be 64 bytes.
  * @retval None
  */
void change_IFR_data_config(IFR_config2_TypeDef *IFR_config, uint8_t data[64]);

/**
  * @brief  Get BlueNRG hardware and firmware version
  * @param  hwVersion This parameter returns the Hardware Version (i.e. CUT 3.0 = 0x30, CUT 3.1 = 0x31).
  * @param  fwVersion This parameter returns the Firmware Version in the format 0xJJMN
  *                   where JJ = Major Version number, M = Minor Version number and N = Patch Version number.
  * @retval Status of the call
  */
uint8_t getBlueNRGVersion(uint8_t *hwVersion, uint16_t *fwVersion);

/**
  * @brief  Get BlueNRG updater version
  * @param  version This parameter returns the updater version. If the updadter version is 0x03 
  *                 the chip has the updater old, needs to update the bootloader.
  * @retval Status of the call
  */
uint8_t getBlueNRGUpdaterVersion(uint8_t *version);

/**
  * @brief  Get BlueNRG HW version in bootloader mode
  * @param  version This parameter returns the updater HW version.
  * @retval Status of the call
  */
uint8_t getBlueNRGUpdaterHWVersion(uint8_t *version);

/**
  * @brief  Verifies if the bootloader is patched or not. This function shall be used to fix a bug on
  *         the HW bootloader related to the 32 MHz external crystal oscillator.
  * @retval TRUE if the HW bootloader is already patched, FALSE otherwise
  */
uint8_t isHWBootloader_Patched(void);
   
#ifdef __cplusplus
}
#endif

#endif /*__BLUENRG_UTILS_H */

/************************ (C) COPYRIGHT STMicroelectronics *****END OF FILE****/