ardupilot/libraries/AP_HAL_ESP32/i2c_sw.h

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/*
* Copyright (C) 2014-2017 Freie Universität Berlin
*
* This file is subject to the terms and conditions of the GNU Lesser
* General Public License v2.1. See the file LICENSE in the top level
* directory for more details.
*/
/**
* @defgroup drivers_periph_i2c I2C
* @ingroup drivers_periph
* @brief Low-level I2C peripheral driver
*
* This interface provides a simple abstraction to use the MCUs I2C peripherals.
* It provides support for 7-bit and 10-bit addressing and can be used for
* different kind of register addressing schemes.
*
*
* @section sec_i2c_usage Usage
*
* Example for reading a 8-bit register on a device, using a 10-bit device
* address and 8-bit register addresses and using a RESTART condition (CAUTION:
* this example does not check any return values...):
*
* @code{c}
* // initialize the bus (this is normally done during boot time)
* i2c_init(dev);
* ...
* // before accessing the bus, we need to acquire it
* i2c_acquire(dev);
* // next we write the register address, but create no STOP condition when done
* i2c_write_byte(dev, device_addr, reg_addr, (I2C_NOSTOP | I2C_ADDR10));
* // and now we read the register value
* i2c_read_byte(dev, device_addr, &reg_value, I2C_ADDR10);
* // finally we have to release the bus
* i2c_release(dev);
* @endcode
*
* Example for writing a 16-bit register with 16-bit register addressing and
* 7-bit device addressing:
*
* @code{c}
* // initialize the bus
* i2c_init(dev);
* ...
* // first, acquire the shared bus again
* i2c_acquire(dev);
* // write the 16-bit register address to the device and prevent STOP condition
* i2c_write_byte(dev, device_addr, reg_addr, I2C_NOSTOP);
* // and write the data after a REPEATED START
* i2c_write_bytes(dev, device_addr, reg_data, 2, 0);
* // and finally free the bus again
* i2c_release(dev);
* @endcode
*
*
* @section sec_i2c_pull Pull Resistors
*
* The I2C signal lines SDA/SCL need external pull-up resistors which connect
* the lines to the positive voltage supply Vcc. The I2C driver implementation
* should enable the pin's internal pull-up resistors. There are however some
* use cases for which the internal pull resistors are not strong enough and the
* I2C bus will show faulty behavior. This can for example happen when
* connecting a logic analyzer which will raise the capacitance of the bus. In
* this case you should make sure you connect external pull-up resistors to both
* I2C bus lines.
*
* The minimum and maximum resistances are computed by:
* \f{eqnarray*}{
* R_{min} &=& \frac{V_{DD} - V_{OL(max)}} {I_{OL}}\\
* R_{max} &=& \frac{t_r} {(0.8473 \cdot C_b)}
* \f}<br>
* where:<br>
* \f$ V_{DD} =\f$ Supply voltage,
* \f$ V_{OL(max)} =\f$ Low level voltage,
* \f$ I_{OL} =\f$ Low level output current,
* \f$ t_r =\f$ Signal rise time,
* \f$ C_b =\f$ Bus capacitance <br>
* <br>The pull-up resistors depend on the bus speed.
* Some typical values are:<br>
* Normal mode: 10k&Omega;<br>
* Fast mode: 2k&Omega;<br>
* Fast plus mode: 2k&Omega;
*
* For more details refer to section 7.1 in:<br>
* http://www.nxp.com/documents/user_manual/UM10204.pdf
*
*
* @section sec_i2c_pm (Low-) power implications
*
* The I2C interface realizes a transaction-based access scheme to the bus. From
* a power management perspective, we can leverage this by only powering on the
* I2C peripheral while it is actually used, that is inside an i2c_acquire() -
* i2c_release() block.
*
* After initialization, the I2C peripheral **should** be powered off (e.g.
* through peripheral clock gating). It should only be powered on once a
* transaction on the I2C bus starts, namely in the i2c_acquire() function. Once
* the transaction is finished, the corresponding I2C peripheral **should** be
* powered off again in the i2c_release() function.
*
* If the implementation puts the active thread to sleep while a transfer is in
* progress (e.g. when using DMA), the implementation might need to block
* certain power states.
*
* @{
* @file
* @brief Low-level I2C peripheral driver interface definition
*
* @author Hauke Petersen <hauke.petersen@fu-berlin.de>
* @author Thomas Eichinger <thomas.eichinger@fu-berlin.de>
*/
#ifndef PERIPH_I2C_H
#define PERIPH_I2C_H
#include <stdint.h>
#include <stddef.h>
#include <limits.h>
#include "driver/gpio.h"
#ifdef __cplusplus
extern "C" {
#endif
/**
* @brief Default I2C device access macro
* @{
*/
#ifndef I2C_DEV
#define I2C_DEV(x) (x)
#endif
/** @} */
/**
* @brief Default I2C undefined value
* @{
*/
#ifndef I2C_UNDEF
#define I2C_UNDEF (UINT_MAX)
#endif
/** @} */
/**
* @brief Default i2c_t type definition
* @{
*/
#ifndef HAVE_I2C_T
typedef unsigned int i2c_t;
#endif
/** @} */
/**
* @brief Read bit needs to be set when reading
*/
#define I2C_READ (0x0001)
/**
* @brief Special bit pattern indicating a 10 bit address is used
*
* Should only be used internally in CPU driver implementations, this is not
* intended to be used by applications.
*
* @see https://www.i2c-bus.org/addressing/10-bit-addressing/
*/
#define I2C_10BIT_MAGIC (0xF0u)
/**
* @brief Default mapping of I2C bus speed values
* @{
*/
typedef enum {
I2C_SPEED_LOW = 0, /**< low speed mode: ~10 kbit/s */
I2C_SPEED_NORMAL, /**< normal mode: ~100 kbit/s */
I2C_SPEED_FAST, /**< fast mode: ~400 kbit/s */
I2C_SPEED_FAST_PLUS, /**< fast plus mode: ~1000 kbit/s */
I2C_SPEED_HIGH, /**< high speed mode: ~3400 kbit/s */
} i2c_speed_t;
/** @} */
/**
* @brief I2C transfer flags
* @{
*/
typedef enum {
I2C_ADDR10 = 0x01, /**< use 10-bit device addressing */
I2C_REG16 = 0x02, /**< use 16-bit register addressing, big-endian */
I2C_NOSTOP = 0x04, /**< do not issue a STOP condition after transfer */
I2C_NOSTART = 0x08, /**< skip START sequence, ignores address field */
} i2c_flags_t;
/** @} */
typedef struct {
i2c_speed_t speed;
bool started;
gpio_num_t scl;
gpio_num_t sda;
uint32_t scl_bit; /* gpio bit mask for faster access */
uint32_t sda_bit; /* gpio bit mask for faster access */
uint32_t delay;
} _i2c_bus_t;
/**
* @brief Initialize the given I2C bus
*
* The given I2C device will be initialized with the parameters as specified in
* the boards periph_conf.h, using the pins and the speed value given there.
*
* The bus MUST not be acquired before initializing it, as this is handled
* internally by the i2c_init function!
*
* @param[in] dev the device to initialize
*/
void i2c_init(_i2c_bus_t* bus);
/**
* @brief Convenience function for reading one byte from a given register
* address
*
* @note This function is using a repeated start sequence for reading from
* the specified register address.
*
* @pre i2c_acquire must be called before accessing the bus
*
* @param[in] dev I2C peripheral device
* @param[in] reg register address to read from (8- or 16-bit,
* right-aligned)
* @param[in] addr 7-bit or 10-bit device address (right-aligned)
* @param[out] data memory location to store received data
* @param[in] flags optional flags (see @ref i2c_flags_t)
*
* @return 0 When success
* @return -EIO When slave device doesn't ACK the byte
* @return -ENXIO When no devices respond on the address sent on the bus
* @return -ETIMEDOUT When timeout occurs before device's response
* @return -EINVAL When an invalid argument is given
* @return -EOPNOTSUPP When MCU driver doesn't support the flag operation
* @return -EAGAIN When a lost bus arbitration occurs
*/
int i2c_read_reg(_i2c_bus_t* bus, uint16_t addr, uint16_t reg,
void *data, uint8_t flags);
/**
* @brief Convenience function for reading several bytes from a given
* register address
*
* @note This function is using a repeated start sequence for reading from
* the specified register address.
*
* @pre i2c_acquire must be called before accessing the bus
*
* @param[in] dev I2C peripheral device
* @param[in] reg register address to read from (8- or 16-bit,
* right-aligned)
* @param[in] addr 7-bit or 10-bit device address (right-aligned)
* @param[out] data memory location to store received data
* @param[in] len the number of bytes to read into @p data
* @param[in] flags optional flags (see @ref i2c_flags_t)
*
* @return 0 When success
* @return -EIO When slave device doesn't ACK the byte
* @return -ENXIO When no devices respond on the address sent on the bus
* @return -ETIMEDOUT When timeout occurs before device's response
* @return -EINVAL When an invalid argument is given
* @return -EOPNOTSUPP When MCU driver doesn't support the flag operation
* @return -EAGAIN When a lost bus arbitration occurs
*/
int i2c_read_regs(_i2c_bus_t* bus, uint16_t addr, uint16_t reg,
void *data, size_t len, uint8_t flags);
/**
* @brief Convenience function for reading one byte from a device
*
* @note This function is using a repeated start sequence for reading from
* the specified register address.
*
* @pre i2c_acquire must be called before accessing the bus
*
* @param[in] dev I2C peripheral device
* @param[in] addr 7-bit or 10-bit device address (right-aligned)
* @param[out] data memory location to store received data
* @param[in] flags optional flags (see @ref i2c_flags_t)
*
* @return 0 When success
* @return -EIO When slave device doesn't ACK the byte
* @return -ENXIO When no devices respond on the address sent on the bus
* @return -ETIMEDOUT When timeout occurs before device's response
* @return -EINVAL When an invalid argument is given
* @return -EOPNOTSUPP When MCU driver doesn't support the flag operation
* @return -EAGAIN When a lost bus arbitration occurs
*/
int i2c_read_byte(_i2c_bus_t* bus, uint16_t addr, void *data, uint8_t flags);
/**
* @brief Convenience function for reading bytes from a device
*
* @note This function is using a repeated start sequence for reading from
* the specified register address.
*
* @pre i2c_acquire must be called before accessing the bus
*
* @param[in] dev I2C peripheral device
* @param[in] addr 7-bit or 10-bit device address (right-aligned)
* @param[out] data memory location to store received data
* @param[in] len the number of bytes to read into @p data
* @param[in] flags optional flags (see @ref i2c_flags_t)
*
* @return 0 When success
* @return -EIO When slave device doesn't ACK the byte
* @return -ENXIO When no devices respond on the address sent on the bus
* @return -ETIMEDOUT When timeout occurs before device's response
* @return -EINVAL When an invalid argument is given
* @return -EOPNOTSUPP When MCU driver doesn't support the flag operation
* @return -EAGAIN When a lost bus arbitration occurs
*/
int i2c_read_bytes(_i2c_bus_t* bus, uint16_t addr,
void *data, size_t len, uint8_t flags);
/**
* @brief Convenience function for writing a single byte onto the bus
*
* @pre i2c_acquire must be called before accessing the bus
*
* @param[in] dev I2C peripheral device
* @param[in] addr 7-bit or 10-bit device address (right-aligned)
* @param[in] data byte to write to the device
* @param[in] flags optional flags (see @ref i2c_flags_t)
*
* @return 0 When success
* @return -EIO When slave device doesn't ACK the byte
* @return -ENXIO When no devices respond on the address sent on the bus
* @return -ETIMEDOUT When timeout occurs before device's response
* @return -EINVAL When an invalid argument is given
* @return -EOPNOTSUPP When MCU driver doesn't support the flag operation
* @return -EAGAIN When a lost bus arbitration occurs
*/
int i2c_write_byte(_i2c_bus_t* bus, uint16_t addr, uint8_t data, uint8_t flags);
/**
* @brief Convenience function for writing several bytes onto the bus
*
* @pre i2c_acquire must be called before accessing the bus
*
* @param[in] dev I2C peripheral device
* @param[in] addr 7-bit or 10-bit device address (right-aligned)
* @param[in] data array holding the bytes to write to the device
* @param[in] len the number of bytes to write
* @param[in] flags optional flags (see @ref i2c_flags_t)
*
* @return 0 When success
* @return -EIO When slave device doesn't ACK the byte
* @return -ENXIO When no devices respond on the address sent on the bus
* @return -ETIMEDOUT When timeout occurs before device's response
* @return -EINVAL When an invalid argument is given
* @return -EOPNOTSUPP When MCU driver doesn't support the flag operation
* @return -EAGAIN When a lost bus arbitration occurs
*/
int i2c_write_bytes(_i2c_bus_t* bus, uint16_t addr, const void *data,
size_t len, uint8_t flags);
/**
* @brief Convenience function for writing one byte to a given
* register address
*
* @note This function is using a continuous sequence for writing to the
* specified register address. It first writes the register then data.
*
* @pre i2c_acquire must be called before accessing the bus
*
* @param[in] dev I2C peripheral device
* @param[in] reg register address to read from (8- or 16-bit,
* right-aligned)
* @param[in] addr 7-bit or 10-bit device address (right-aligned)
* @param[in] data byte to write
* @param[in] flags optional flags (see @ref i2c_flags_t)
*
* @return 0 When success
* @return -EIO When slave device doesn't ACK the byte
* @return -ENXIO When no devices respond on the address sent on the bus
* @return -ETIMEDOUT When timeout occurs before device's response
* @return -EINVAL When an invalid argument is given
* @return -EOPNOTSUPP When MCU driver doesn't support the flag operation
* @return -EAGAIN When a lost bus arbitration occurs
*/
int i2c_write_reg(_i2c_bus_t* bus, uint16_t addr, uint16_t reg,
uint8_t data, uint8_t flags);
/**
* @brief Convenience function for writing data to a given register address
*
* @note This function is using a continuous sequence for writing to the
* specified register address. It first writes the register then data.
*
* @pre i2c_acquire must be called before accessing the bus
*
* @param[in] dev I2C peripheral device
* @param[in] reg register address to read from (8- or 16-bit,
* right-aligned)
* @param[in] addr 7-bit or 10-bit device address (right-aligned)
* @param[out] data memory location to store received data
* @param[in] len the number of bytes to write
* @param[in] flags optional flags (see @ref i2c_flags_t)
*
* @return 0 When success
* @return -EIO When slave device doesn't ACK the byte
* @return -ENXIO When no devices respond on the address sent on the bus
* @return -ETIMEDOUT When timeout occurs before device's response
* @return -EINVAL When an invalid argument is given
* @return -EOPNOTSUPP When MCU driver doesn't support the flag operation
* @return -EAGAIN When a lost bus arbitration occurs
*/
int i2c_write_regs(_i2c_bus_t* bus, uint16_t addr, uint16_t reg,
const void *data, size_t len, uint8_t flags);
#ifdef __cplusplus
}
#endif
#endif /* PERIPH_I2C_H */
/** @} */