/*!\file ci2c.h ** \author SMFSW ** \version 0.3 ** \copyright MIT SMFSW (2017) ** \brief arduino i2c in plain c declarations **/ /****************************************************************/ #ifndef __CI2C_H__ #define __CI2C_H__ "v0.3" /****************************************************************/ #if defined(DOXY) // Define gcc __attribute__ as void when Doxygen runs #define __attribute__(a) //!< GCC attribute (ignored by Doxygen) #endif #if (ARDUINO >= 100) #include #else #include #endif #include #include #ifdef __cplusplus extern "C"{ #endif #define DEF_CI2C_NB_RETRIES 3 //!< Default cI2C transaction retries #define DEF_CI2C_TIMEOUT 100 //!< Default cI2C timeout /*! \enum enI2C_RW * \brief I2C RW bit enumeration * \attribute packed enum */ typedef enum __attribute__((__packed__)) enI2C_RW { I2C_WRITE = 0, //!< I2C rw bit (write) I2C_READ //!< I2C rw bit (read) } I2C_RW; /*! \enum enI2C_SPEED * \brief I2C bus speed * \attribute packed enum */ typedef enum __attribute__((__packed__)) enI2C_SPEED { I2C_SLOW = 100, //!< I2C Slow speed (100KHz) I2C_LOW = 400, //!< I2C Low speed (400KHz) I2C_FAST = 1000 //!< I2C Fast mode (1MHz) } I2C_SPEED; /*! \enum enI2C_STATUS * \brief I2C slave status * \attribute packed enum */ typedef enum __attribute__((__packed__)) enI2C_STATUS { I2C_OK = 0x00, //!< I2C OK I2C_BUSY, //!< I2C Bus busy I2C_NACK //!< I2C Not Acknowledge } I2C_STATUS; /*! \enum enI2C_INT_SIZE * \brief I2C slave internal address registers size * \attribute packed enum */ typedef enum __attribute__((__packed__)) enI2C_INT_SIZE { I2C_NO_REG = 0x00, //!< Internal address registers not applicable for slave I2C_8B_REG, //!< Slave internal address registers space is 8bits wide I2C_16B_REG //!< Slave internal address registers space is 16bits wide } I2C_INT_SIZE; typedef bool (*ci2c_fct_ptr) (const void*, uint16_t, uint8_t*, uint16_t); //!< i2c read/write function pointer typedef /*! \struct StructI2CSlave * \brief ci2c slave config and control parameters * \attribute packed struct */ typedef struct __attribute__((__packed__)) StructI2CSlave { /*! \struct cfg * \brief ci2c slave parameters */ struct { uint8_t addr; //!< Slave address I2C_INT_SIZE reg_size; //!< Slave internal registers size ci2c_fct_ptr wr; //!< Slave write function pointer ci2c_fct_ptr rd; //!< Slave read function pointer } cfg; uint16_t reg_addr; //!< Internal current register address I2C_STATUS status; //!< Status of the last communications } I2C_SLAVE; /***************************/ /*** I2C SLAVE FUNCTIONS ***/ /***************************/ /*! \brief Init an I2C slave structure for cMI2C communication * \param [in] slave - pointer to the I2C slave structure to init * \param [in] sl_addr - I2C slave address * \param [in] reg_sz - internal register map size * \return nothing */ extern void I2C_slave_init(I2C_SLAVE * slave, uint8_t sl_addr, I2C_INT_SIZE reg_sz); /*! \brief Redirect slave I2C read/write function (if needed for advanced use) * \param [in] slave - pointer to the I2C slave structure to init * \param [in] func - pointer to read/write function to affect * \param [in] rw - 0 = write function, 1 = read function * \return nothing */ extern void I2C_slave_set_rw_func(I2C_SLAVE * slave, ci2c_fct_ptr func, I2C_RW rw); /*! \brief Change I2C slave address * \attribute inline * \param [in, out] slave - pointer to the I2C slave structure to init * \param [in] sl_addr - I2C slave address * \return true if new address set (false if address is >7Fh) */ extern inline bool __attribute__((__always_inline__)) I2C_slave_set_addr(I2C_SLAVE * slave, uint8_t sl_addr); /*! \brief Change I2C registers map size (for access) * \attribute inline * \param [in, out] slave - pointer to the I2C slave structure * \param [in] reg_sz - internal register map size * \return true if new size is correct (false otherwise and set to 16bit by default) */ extern inline bool __attribute__((__always_inline__)) I2C_slave_set_reg_size(I2C_SLAVE * slave, I2C_INT_SIZE reg_sz); /*! \brief Get I2C slave address * \attribute inline * \param [in] slave - pointer to the I2C slave structure * \return I2C slave address */ extern inline uint8_t __attribute__((__always_inline__)) I2C_slave_get_addr(I2C_SLAVE * slave); /*! \brief Get I2C register map size (for access) * \attribute inline * \param [in] slave - pointer to the I2C slave structure * \return register map using 16bits if true (1Byte otherwise) */ extern inline bool __attribute__((__always_inline__)) I2C_slave_get_reg_size(I2C_SLAVE * slave); /*! \brief Get I2C current register address (addr may passed this way in procedures if contigous accesses) * \attribute inline * \param [in] slave - pointer to the I2C slave structure * \return current register map address */ extern inline uint16_t __attribute__((__always_inline__)) I2C_slave_get_reg_addr(I2C_SLAVE * slave); /*************************/ /*** I2C BUS FUNCTIONS ***/ /*************************/ /*! \brief Enable I2c module on arduino board (including pull-ups, * enabling of ACK, and setting clock frequency) * \param [in] speed - I2C bus speed in KHz * \return nothing */ extern void I2C_init(uint16_t speed); /*! \brief Disable I2c module on arduino board (releasing pull-ups, and TWI control) * \return nothing */ extern void I2C_uninit(); /*! \brief Change I2C frequency * \param [in] speed - I2C bus speed in KHz * \return true if change is successful (false otherwise) */ extern bool I2C_set_speed(uint16_t speed); /*! \brief Change I2C ack timeout * \param [in] timeout - I2C ack timeout (500 ms max) * \return true if change is successful (false otherwise) */ extern bool I2C_set_timeout(uint16_t timeout); /*! \brief Change I2C message retries (in case of failure) * \param [in] retries - I2C number of retries (max of 8) * \return true if change is successful (false otherwise) */ extern bool I2C_set_retries(uint8_t retries); /*! \brief Get I2C busy status * \attribute inline * \return true if busy */ extern inline bool __attribute__((__always_inline__)) I2C_is_busy(void); /*! \brief This function writes the provided data to the address specified. * \attribute inline * \param [in, out] slave - pointer to the I2C slave structure * \param [in] reg_addr - register address in register map * \param [in] data - pointer to the first byte of a block of data to write * \param [in] bytes - indicates how many bytes of data to write * \return I2C_STATUS status of write attempt */ extern inline I2C_STATUS __attribute__((__always_inline__)) I2C_write(I2C_SLAVE * slave, uint16_t reg_addr, uint8_t * data, uint16_t bytes); /*! \brief This inline is a wrapper to I2C_write in case of contigous operations * \attribute inline * \param [in, out] slave - pointer to the I2C slave structure * \param [in] data - pointer to the first byte of a block of data to write * \param [in] bytes - indicates how many bytes of data to write * \return I2C_STATUS status of write attempt */ extern inline I2C_STATUS __attribute__((__always_inline__)) I2C_write_next(I2C_SLAVE * slave, uint8_t * data, uint16_t bytes); /*! \brief This function reads data from the address specified and stores this * data in the area provided by the pointer. * \attribute inline * \param [in, out] slave - pointer to the I2C slave structure * \param [in] reg_addr - register address in register map * \param [in, out] data - pointer to the first byte of a block of data to read * \param [in] bytes - indicates how many bytes of data to read * \return I2C_STATUS status of read attempt */ extern inline I2C_STATUS __attribute__((__always_inline__)) I2C_read(I2C_SLAVE * slave, uint16_t reg_addr, uint8_t * data, uint16_t bytes); /*! \brief This inline is a wrapper to I2C_read in case of contigous operations * \attribute inline * \param [in, out] slave - pointer to the I2C slave structure * \param [in] data - pointer to the first byte of a block of data to read * \param [in] bytes - indicates how many bytes of data to read * \return I2C_STATUS status of read attempt */ extern inline I2C_STATUS __attribute__((__always_inline__)) I2C_read_next(I2C_SLAVE * slave, uint8_t * data, uint16_t bytes); /***********************************/ /*** cI2C LOW LEVEL FUNCTIONS ***/ /*** THAT MAY BE USEFUL FOR DVPT ***/ /***********************************/ /*! \brief I2C bus reset (Release SCL and SDA lines and re-enable module) * \return nothing */ extern void I2C_reset(void); /*! \brief Send start condition * \return true if start condition acknowledged (false otherwise) */ extern bool I2C_start(void); /*! \brief Send stop condition * \return true if stop condition acknowledged (false otherwise) */ extern bool I2C_stop(void); /*! \brief Send byte on bus * \param [in] dat - data to be sent * \return true if data sent acknowledged (false otherwise) */ extern bool I2C_snd8(uint8_t dat); /*! \brief Receive byte from bus * \param [in] ack - true if wait for ack * \return true if data reception acknowledged (false otherwise) */ extern uint8_t I2C_rcv8(bool ack); /*! \brief Send I2C address * \param [in] slave - pointer to the I2C slave structure * \param [in] rw - read/write transaction * \return true if I2C chip address sent acknowledged (false otherwise) */ extern bool I2C_sndAddr(I2C_SLAVE * slave, I2C_RW rw); #ifdef __cplusplus } #endif #endif