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simtrace2/firmware/libboard/qmod/source/i2c.c
Harald Welte 3f5e3ddffc Change directory structure to align with Atmel softpack 
This way we can easily check with 'diff' for differences in our code and
Atmel softpack.  Also, this layout is more suitable for building various
different firmware images (e.g. factory-test, dfu-loader, main
application) for a variety of different boards (simtrace, owhw, qmod).
2017-02-27 14:24:11 +01:00

204 lines
3.0 KiB
C
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#include "board.h"
#include <stdbool.h>
/* Low-Level I2C Routines */
static const Pin pin_sda = {PIO_PA30, PIOA, ID_PIOA, PIO_OUTPUT_1, PIO_OPENDRAIN };
static const Pin pin_sda_in = {PIO_PA30, PIOA, ID_PIOA, PIO_INPUT, PIO_DEFAULT };
static const Pin pin_scl = {PIO_PA31, PIOA, ID_PIOA, PIO_OUTPUT_1, PIO_OPENDRAIN };
static void i2c_delay()
{
volatile int v;
int i;
/* 100 cycles results in SCL peak length of 44us, so it's about
* 440ns per cycle here */
for (i = 0; i < 14; i++) {
v = 0;
}
}
void i2c_pin_init(void)
{
PIO_Configure(&pin_scl, PIO_LISTSIZE(pin_scl));
PIO_Configure(&pin_sda, PIO_LISTSIZE(pin_sda));
}
static void set_scl(void)
{
PIO_Set(&pin_scl);
i2c_delay();
}
static void set_sda(void)
{
PIO_Set(&pin_sda);
i2c_delay();
}
static void clear_scl(void)
{
PIO_Clear(&pin_scl);
i2c_delay();
}
static void clear_sda(void)
{
PIO_Clear(&pin_sda);
i2c_delay();
}
static bool read_sda(void)
{
bool ret;
PIO_Configure(&pin_sda_in, PIO_LISTSIZE(pin_sda_in));
if (PIO_Get(&pin_sda_in))
ret = true;
else
ret = false;
PIO_Configure(&pin_sda, PIO_LISTSIZE(pin_sda));
return ret;
}
/* Core I2C Routines */
static bool i2c_started = false;
static void i2c_start_cond(void)
{
if (i2c_started) {
set_sda();
set_scl();
}
clear_sda();
i2c_delay();
clear_scl();
i2c_started = true;
}
static void i2c_stop_cond(void)
{
clear_sda();
set_scl();
set_sda();
i2c_delay();
i2c_started = false;
}
static void i2c_write_bit(bool bit)
{
if (bit)
set_sda();
else
clear_sda();
i2c_delay(); // ?
set_scl();
clear_scl();
}
static bool i2c_read_bit(void)
{
bool bit;
set_sda();
set_scl();
bit = read_sda();
clear_scl();
return bit;
}
bool i2c_write_byte(bool send_start, bool send_stop, uint8_t byte)
{
uint8_t bit;
bool nack;
if (send_start)
i2c_start_cond();
for (bit = 0; bit < 8; bit++) {
i2c_write_bit((byte & 0x80) != 0);
byte <<= 1;
}
nack = i2c_read_bit();
if (send_stop)
i2c_stop_cond();
return nack;
}
uint8_t i2c_read_byte(bool nack, bool send_stop)
{
uint8_t byte = 0;
uint8_t bit;
for (bit = 0; bit < 8; bit++) {
byte = (byte << 1) | i2c_read_bit();
}
i2c_write_bit(nack);
if (send_stop)
i2c_stop_cond();
return byte;
}
/* EEPROM related code */
int eeprom_write_byte(uint8_t slave, uint8_t addr, uint8_t byte)
{
bool nack;
/* Write slave address */
nack = i2c_write_byte(true, false, slave << 1);
if (nack)
goto out_stop;
nack = i2c_write_byte(false, false, addr);
if (nack)
goto out_stop;
nack = i2c_write_byte(false, true, byte);
if (nack)
goto out_stop;
out_stop:
i2c_stop_cond();
if (nack)
return -1;
else
return 0;
}
int eeprom_read_byte(uint8_t slave, uint8_t addr)
{
bool nack;
/* dummy write cycle */
nack = i2c_write_byte(true, false, slave << 1);
if (nack)
goto out_stop;
nack = i2c_write_byte(false, false, addr);
if (nack)
goto out_stop;
/* Re-start with read */
nack = i2c_write_byte(true, false, (slave << 1) | 1);
if (nack)
goto out_stop;
return i2c_read_byte(true, true);
out_stop:
i2c_stop_cond();
if (nack)
return -1;
else
return 0;
}
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