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RIOT/cpu/nrf5x_common/periph/i2c_nrf52_nrf9160.c
Koen Zandberg e5d25e0b04
nrf5x_common: Clear I2C periph shorts 
The I2C peripheral's shortcuts are used with the read and write register
to automatically stop the I2C transaction or to continue with the next
stage.

With simple I2C read and write bytes these shorts are not used, but are
also not cleared by the function in all cases, causing it to use the
shortcut configuration set by a previous function call. This patch
ensures that the shorts are always set by the read and write functions
2023-06-14 10:37:24 +02:00

332 lines
8.4 KiB
C
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/*
* Copyright (C) 2017 HAW Hamburg
* 2018 Freie Universität Berlin
* 2018 Mesotic SAS
*
* 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.
*/
/**
* @ingroup cpu_nrf5x_common
* @{
*
* @file
* @brief Low-level I2C (TWI) peripheral driver implementation
*
* @author Dimitri Nahm <dimitri.nahm@haw-hamburg.de>
* @author Hauke Petersen <hauke.petersen@fu-berlin.de>
* @author Dylan Laduranty <dylan.laduranty@mesotic.com>
*
* @}
*/
#include <assert.h>
#include <string.h>
#include <errno.h>
#include "cpu.h"
#include "mutex.h"
#include "assert.h"
#include "periph/i2c.h"
#include "periph/gpio.h"
#include "byteorder.h"
#define ENABLE_DEBUG 0
#include "debug.h"
/**
* @brief If any of the 8 lower bits are set, the speed value is invalid
*/
#define INVALID_SPEED_MASK (0xff)
/**
* @brief Allocate a tx buffer
*/
static uint8_t tx_buf[256];
/**
* @brief Mutex for locking the TX buffer
*/
static mutex_t buffer_lock;
/**
* @brief Initialized dev locks (we have a maximum of two devices...)
*/
static mutex_t locks[I2C_NUMOF];
/**
* @brief array with a busy mutex for each I2C device, used to block the
* thread until the transfer is done
*/
static mutex_t busy[I2C_NUMOF];
void i2c_isr_handler(void *arg);
static inline NRF_TWIM_Type *bus(i2c_t dev)
{
return i2c_config[dev].dev;
}
static int finish(i2c_t dev)
{
DEBUG("[i2c] waiting for STOPPED or ERROR event\n");
/* Unmask interrupts */
bus(dev)->INTENSET = TWIM_INTEN_STOPPED_Msk | TWIM_INTEN_ERROR_Msk;
mutex_lock(&busy[dev]);
if ((bus(dev)->EVENTS_STOPPED)) {
bus(dev)->EVENTS_STOPPED = 0;
DEBUG("[i2c] finish: stop event occurred\n");
}
if (bus(dev)->EVENTS_ERROR) {
bus(dev)->EVENTS_ERROR = 0;
if (bus(dev)->ERRORSRC & TWIM_ERRORSRC_ANACK_Msk) {
bus(dev)->ERRORSRC = TWIM_ERRORSRC_ANACK_Msk;
DEBUG("[i2c] check_error: NACK on address byte\n");
return -ENXIO;
}
if (bus(dev)->ERRORSRC & TWIM_ERRORSRC_DNACK_Msk) {
bus(dev)->ERRORSRC = TWIM_ERRORSRC_DNACK_Msk;
DEBUG("[i2c] check_error: NACK on data byte\n");
return -EIO;
}
}
return 0;
}
static void _init_pins(i2c_t dev)
{
gpio_init(i2c_config[dev].scl, GPIO_IN_OD_PU);
gpio_init(i2c_config[dev].sda, GPIO_IN_OD_PU);
}
/* Beware: This needs to be kept in sync with the SPI version of this.
* Specifically, when registers are configured that are valid to the peripheral
* in both SPI and I2C mode, the register needs to be configured in both the I2C
* and the SPI variant of _setup_shared_peripheral() to avoid from parameters
* leaking from one bus into the other */
static void _setup_shared_peripheral(i2c_t dev)
{
bus(dev)->PSEL.SCL = i2c_config[dev].scl;
bus(dev)->PSEL.SDA = i2c_config[dev].sda;
bus(dev)->FREQUENCY = i2c_config[dev].speed;
}
void i2c_init(i2c_t dev)
{
assert(dev < I2C_NUMOF);
/* Initialize mutex */
mutex_init(&busy[dev]);
mutex_lock(&busy[dev]);
/* disable device during initialization, will be enabled when acquire is
* called */
bus(dev)->ENABLE = TWIM_ENABLE_ENABLE_Disabled;
/* configure pins */
_init_pins(dev);
/* configure shared periphal speed */
_setup_shared_peripheral(dev);
spi_twi_irq_register_i2c(bus(dev), i2c_isr_handler, (void *)(uintptr_t)dev);
/* We expect that the device was being acquired before
* the i2c_init_master() function is called, so it should be enabled when
* exiting this function. */
bus(dev)->ENABLE = TWIM_ENABLE_ENABLE_Enabled;
}
#ifdef MODULE_PERIPH_I2C_RECONFIGURE
void i2c_init_pins(i2c_t dev)
{
assert(dev < I2C_NUMOF);
_init_pins(dev);
bus(dev)->ENABLE = TWIM_ENABLE_ENABLE_Enabled;
mutex_unlock(&locks[dev]);
}
void i2c_deinit_pins(i2c_t dev)
{
assert(dev < I2C_NUMOF);
mutex_lock(&locks[dev]);
bus(dev)->ENABLE = TWIM_ENABLE_ENABLE_Disabled;
}
#endif /* MODULE_PERIPH_I2C_RECONFIGURE */
void i2c_acquire(i2c_t dev)
{
assert(dev < I2C_NUMOF);
if (IS_USED(MODULE_PERIPH_I2C_RECONFIGURE)) {
mutex_lock(&locks[dev]);
}
nrf5x_i2c_acquire(bus(dev), i2c_isr_handler, (void *)(uintptr_t)dev);
_setup_shared_peripheral(dev);
bus(dev)->ENABLE = TWIM_ENABLE_ENABLE_Enabled;
DEBUG("[i2c] acquired dev %i\n", (int)dev);
}
void i2c_release(i2c_t dev)
{
assert(dev < I2C_NUMOF);
bus(dev)->ENABLE = TWIM_ENABLE_ENABLE_Disabled;
if (IS_USED(MODULE_PERIPH_I2C_RECONFIGURE)) {
mutex_unlock(&locks[dev]);
}
nrf5x_i2c_release(bus(dev));
DEBUG("[i2c] released dev %i\n", (int)dev);
}
int i2c_write_regs(i2c_t dev, uint16_t addr, uint16_t reg,
const void *data, size_t len, uint8_t flags)
{
assert((dev < I2C_NUMOF) && data && (len > 0) && (len < 253));
if (flags & (I2C_NOSTART | I2C_ADDR10)) {
return -EOPNOTSUPP;
}
/* the nrf52's TWI device does not support to do two consecutive transfers
* without a repeated start condition in between. So we have to put all data
* to be transferred into a buffer (tx_buf).
* */
uint8_t reg_addr_len; /* Length in bytes of the register address */
/* Lock tx_buf */
mutex_lock(&buffer_lock);
if (flags & (I2C_REG16)) {
reg_addr_len = 2;
/* Prepare the 16-bit register transfer */
tx_buf[0] = reg >> 8; /* AddrH in the first byte */
tx_buf[1] = reg & 0xFF; /* AddrL in the second byte */
}
else{
reg_addr_len = 1;
tx_buf[0] = reg;
}
memcpy(&tx_buf[reg_addr_len], data, len);
int ret = i2c_write_bytes(dev, addr, tx_buf, reg_addr_len + len, flags);
/* Release tx_buf */
mutex_unlock(&buffer_lock);
return ret;
}
int i2c_read_bytes(i2c_t dev, uint16_t addr, void *data, size_t len,
uint8_t flags)
{
assert((dev < I2C_NUMOF) && data && (len > 0) && (len < 256));
if (flags & (I2C_NOSTART | I2C_ADDR10)) {
return -EOPNOTSUPP;
}
DEBUG("[i2c] read_bytes: %i bytes from addr 0x%02x\n", (int)len, (int)addr);
bus(dev)->ADDRESS = addr;
bus(dev)->RXD.PTR = (uint32_t)data;
bus(dev)->RXD.MAXCNT = (uint8_t)len;
if (!(flags & I2C_NOSTOP)) {
bus(dev)->SHORTS = TWIM_SHORTS_LASTRX_STOP_Msk;
}
else {
bus(dev)->SHORTS = 0;
}
/* Start transmission */
bus(dev)->TASKS_STARTRX = 1;
return finish(dev);
}
int i2c_read_regs(i2c_t dev, uint16_t addr, uint16_t reg,
void *data, size_t len, uint8_t flags)
{
assert((dev < I2C_NUMOF) && data && (len > 0) && (len < 256));
if (flags & (I2C_NOSTART | I2C_ADDR10)) {
return -EOPNOTSUPP;
}
DEBUG("[i2c] read_regs: %i byte(s) from reg 0x%02x at addr 0x%02x\n",
(int)len, (int)reg, (int)addr);
/* Prepare transfer */
bus(dev)->ADDRESS = addr;
if (flags & (I2C_REG16)) {
/* Register endianness for 16 bit */
reg = htons(reg);
bus(dev)->TXD.MAXCNT = 2;
}
else {
bus(dev)->TXD.MAXCNT = 1;
}
bus(dev)->TXD.PTR = (uint32_t)&reg;
bus(dev)->RXD.PTR = (uint32_t)data;
bus(dev)->RXD.MAXCNT = (uint8_t)len;
bus(dev)->SHORTS = (TWIM_SHORTS_LASTTX_STARTRX_Msk);
if (!(flags & I2C_NOSTOP)) {
bus(dev)->SHORTS |= TWIM_SHORTS_LASTRX_STOP_Msk;
}
/* Start transfer */
bus(dev)->TASKS_STARTTX = 1;
return finish(dev);
}
int i2c_write_bytes(i2c_t dev, uint16_t addr, const void *data, size_t len,
uint8_t flags)
{
assert((dev < I2C_NUMOF) && data && (len > 0) && (len < 256));
if (flags & (I2C_NOSTART | I2C_ADDR10)) {
return -EOPNOTSUPP;
}
DEBUG("[i2c] write_bytes: %i byte(s) to addr 0x%02x\n", (int)len, (int)addr);
bus(dev)->ADDRESS = addr;
bus(dev)->TXD.PTR = (uint32_t)data;
bus(dev)->TXD.MAXCNT = (uint8_t)len;
if (!(flags & I2C_NOSTOP)) {
bus(dev)->SHORTS = TWIM_SHORTS_LASTTX_STOP_Msk;
}
else {
bus(dev)->SHORTS = 0;
}
bus(dev)->TASKS_STARTTX = 1;
return finish(dev);
}
void i2c_isr_handler(void *arg)
{
i2c_t dev = (i2c_t)(uintptr_t)arg;
/* Mask interrupts to ensure that they only trigger once */
bus(dev)->INTENCLR = TWIM_INTEN_STOPPED_Msk | TWIM_INTEN_ERROR_Msk;
mutex_unlock(&busy[dev]);
}
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