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path: root/platforms/avr/drivers/i2c_master.c
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/*  Copyright (C) 2019 Elia Ritterbusch
 +
 *  This program is free software: you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation, either version 3 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */
/* Library made by: g4lvanix
 * GitHub repository: https://github.com/g4lvanix/I2C-master-lib
 */

#include <avr/io.h>
#include <util/twi.h>

#include "i2c_master.h"
#include "timer.h"
#include "wait.h"
#include "util.h"
#include "progmem.h"

#ifndef F_SCL
#    define F_SCL 400000UL // SCL frequency
#endif

#ifndef I2C_START_RETRY_COUNT
#    define I2C_START_RETRY_COUNT 20
#endif // I2C_START_RETRY_COUNT

#define I2C_ACTION_READ 0x01
#define I2C_ACTION_WRITE 0x00

#define TWBR_val (((F_CPU / F_SCL) - 16) / 2)

__attribute__((weak)) void i2c_init(void) {
    TWSR = 0; /* no prescaler */
    TWBR = (uint8_t)TWBR_val;

#ifdef __AVR_ATmega32A__
    // set pull-up resistors on I2C bus pins
    PORTC |= 0b11;

    // enable TWI (two-wire interface)
    TWCR |= (1 << TWEN);

    // enable TWI interrupt and slave address ACK
    TWCR |= (1 << TWIE);
    TWCR |= (1 << TWEA);
#endif
}

static i2c_status_t i2c_start_impl(uint8_t address, uint16_t timeout) {
    // reset TWI control register
    TWCR = 0;
    // transmit START condition
    TWCR = (1 << TWINT) | (1 << TWSTA) | (1 << TWEN);

    uint16_t timeout_timer = timer_read();
    while (!(TWCR & (1 << TWINT))) {
        if ((timeout != I2C_TIMEOUT_INFINITE) && (timer_elapsed(timeout_timer) > timeout)) {
            return I2C_STATUS_TIMEOUT;
        }
    }

    // check if the start condition was successfully transmitted
    if (((TW_STATUS & 0xF8) != TW_START) && ((TW_STATUS & 0xF8) != TW_REP_START)) {
        return I2C_STATUS_ERROR;
    }

    // load slave address into data register
    TWDR = address;
    // start transmission of address
    TWCR = (1 << TWINT) | (1 << TWEN);

    timeout_timer = timer_read();
    while (!(TWCR & (1 << TWINT))) {
        if ((timeout != I2C_TIMEOUT_INFINITE) && (timer_elapsed(timeout_timer) > timeout)) {
            return I2C_STATUS_TIMEOUT;
        }
    }

    // check if the device has acknowledged the READ / WRITE mode
    uint8_t twst = TW_STATUS & 0xF8;
    if ((twst != TW_MT_SLA_ACK) && (twst != TW_MR_SLA_ACK)) {
        return I2C_STATUS_ERROR;
    }

    return I2C_STATUS_SUCCESS;
}

__attribute__((always_inline)) static inline i2c_status_t i2c_start(uint8_t address, uint16_t timeout) {
    // Retry i2c_start_impl a bunch times in case the remote side has interrupts disabled.
    uint16_t     timeout_timer = timer_read();
    uint16_t     time_slice    = MAX(1, (timeout == (I2C_TIMEOUT_INFINITE)) ? 5 : (timeout / (I2C_START_RETRY_COUNT))); // if it's infinite, wait 1ms between attempts, otherwise split up the entire timeout into the number of retries
    i2c_status_t status;
    do {
        status = i2c_start_impl(address, time_slice);
    } while ((status < 0) && ((timeout == I2C_TIMEOUT_INFINITE) || (timer_elapsed(timeout_timer) <= timeout)));
    return status;
}

__attribute__((always_inline)) static inline void i2c_stop(void) {
    // transmit STOP condition
    TWCR = (1 << TWINT) | (1 << TWEN) | (1 << TWSTO);
}

i2c_status_t i2c_write(uint8_t data, uint16_t timeout) {
    // load data into data register
    TWDR = data;
    // start transmission of data
    TWCR = (1 << TWINT) | (1 << TWEN);

    uint16_t timeout_timer = timer_read();
    while (!(TWCR & (1 << TWINT))) {
        if ((timeout != I2C_TIMEOUT_INFINITE) && (timer_elapsed(timeout_timer) > timeout)) {
            return I2C_STATUS_TIMEOUT;
        }
    }

    if ((TW_STATUS & 0xF8) != TW_MT_DATA_ACK) {
        return I2C_STATUS_ERROR;
    }

    return I2C_STATUS_SUCCESS;
}

int16_t i2c_read_ack(uint16_t timeout) {
    // start TWI module and acknowledge data after reception
    TWCR = (1 << TWINT) | (1 << TWEN) | (1 << TWEA);

    uint16_t timeout_timer = timer_read();
    while (!(TWCR & (1 << TWINT))) {
        if ((timeout != I2C_TIMEOUT_INFINITE) && (timer_elapsed(timeout_timer) > timeout)) {
            return I2C_STATUS_TIMEOUT;
        }
    }

    // return received data from TWDR
    return TWDR;
}

int16_t i2c_read_nack(uint16_t timeout) {
    // start receiving without acknowledging reception
    TWCR = (1 << TWINT) | (1 << TWEN);

    uint16_t timeout_timer = timer_read();
    while (!(TWCR & (1 << TWINT))) {
        if ((timeout != I2C_TIMEOUT_INFINITE) && (timer_elapsed(timeout_timer) > timeout)) {
            return I2C_STATUS_TIMEOUT;
        }
    }

    // return received data from TWDR
    return TWDR;
}

i2c_status_t i2c_transmit(uint8_t address, const uint8_t* data, uint16_t length, uint16_t timeout) {
    i2c_status_t status = i2c_start(address | I2C_ACTION_WRITE, timeout);

    for (uint16_t i = 0; i < length && status >= 0; i++) {
        status = i2c_write(data[i], timeout);
    }

    i2c_stop();

    return status;
}

i2c_status_t i2c_transmit_P(uint8_t address, const uint8_t* data, uint16_t length, uint16_t timeout) {
    i2c_status_t status = i2c_start(address | I2C_ACTION_WRITE, timeout);

    for (uint16_t i = 0; i < length && status >= 0; i++) {
        status = i2c_write(pgm_read_byte((const char*)data++), timeout);
    }

    i2c_stop();

    return status;
}

i2c_status_t i2c_receive(uint8_t address, uint8_t* data, uint16_t length, uint16_t timeout) {
    i2c_status_t status = i2c_start(address | I2C_ACTION_READ, timeout);

    for (uint16_t i = 0; i < (length - 1) && status >= 0; i++) {
        status = i2c_read_ack(timeout);
        if (status >= 0) {
            data[i] = status;
        }
    }

    if (status >= 0) {
        status = i2c_read_nack(timeout);
        if (status >= 0) {
            data[(length - 1)] = status;
        }
    }

    i2c_stop();

    return (status < 0) ? status : I2C_STATUS_SUCCESS;
}

i2c_status_t i2c_write_register(uint8_t devaddr, uint8_t regaddr, const uint8_t* data, uint16_t length, uint16_t timeout) {
    i2c_status_t status = i2c_start(devaddr | 0x00, timeout);
    if (status >= 0) {
        status = i2c_write(regaddr, timeout);

        for (uint16_t i = 0; i < length && status >= 0; i++) {
            status = i2c_write(data[i], timeout);
        }
    }

    i2c_stop();

    return status;
}

i2c_status_t i2c_write_register16(uint8_t devaddr, uint16_t regaddr, const uint8_t* data, uint16_t length, uint16_t timeout) {
    i2c_status_t status = i2c_start(devaddr | 0x00, timeout);
    if (status >= 0) {
        status = i2c_write(regaddr >> 8, timeout);

        if (status >= 0) {
            status = i2c_write(regaddr & 0xFF, timeout);

            for (uint16_t i = 0; i < length && status >= 0; i++) {
                status = i2c_write(data[i], timeout);
            }
        }
    }

    i2c_stop();

    return status;
}

i2c_status_t i2c_read_register(uint8_t devaddr, uint8_t regaddr, uint8_t* data, uint16_t length, uint16_t timeout) {
    i2c_status_t status = i2c_start(devaddr, timeout);
    if (status < 0) {
        goto error;
    }

    status = i2c_write(regaddr, timeout);
    if (status < 0) {
        goto error;
    }

    status = i2c_start(devaddr | 0x01, timeout);

    for (uint16_t i = 0; i < (length - 1) && status >= 0; i++) {
        status = i2c_read_ack(timeout);
        if (status >= 0) {
            data[i] = status;
        }
    }

    if (status >= 0) {
        status = i2c_read_nack(timeout);
        if (status >= 0) {
            data[(length - 1)] = status;
        }
    }

error:
    i2c_stop();

    return (status < 0) ? status : I2C_STATUS_SUCCESS;
}

i2c_status_t i2c_read_register16(uint8_t devaddr, uint16_t regaddr, uint8_t* data, uint16_t length, uint16_t timeout) {
    i2c_status_t status = i2c_start(devaddr, timeout);
    if (status < 0) {
        goto error;
    }

    status = i2c_write(regaddr >> 8, timeout);
    if (status < 0) {
        goto error;
    }
    status = i2c_write(regaddr & 0xFF, timeout);
    if (status < 0) {
        goto error;
    }

    status = i2c_start(devaddr | 0x01, timeout);

    for (uint16_t i = 0; i < (length - 1) && status >= 0; i++) {
        status = i2c_read_ack(timeout);
        if (status >= 0) {
            data[i] = status;
        }
    }

    if (status >= 0) {
        status = i2c_read_nack(timeout);
        if (status >= 0) {
            data[(length - 1)] = status;
        }
    }

error:
    i2c_stop();

    return (status < 0) ? status : I2C_STATUS_SUCCESS;
}

__attribute__((weak)) i2c_status_t i2c_ping_address(uint8_t address, uint16_t timeout) {
    i2c_status_t status = i2c_start(address, timeout);
    i2c_stop();
    return status;
}