return (int)(uint8_t)data;
}
-MOD_DEFINE(i2c);
-
-/**
- * Initialize i2c module.
- */
-void i2c_bitbang_init(void)
-{
- MOD_CHECK(timer);
- I2C_BITBANG_HW_INIT;
- SDA_HI;
- SCL_HI;
- MOD_INIT(i2c);
-}
#endif /* !CONFIG_I2C_DISABLE_OLD_API */
/*
* New I2C API
*/
+static bool old_api = false;
#define I2C_DEV(i2c) ((int)((i2c)->hw))
static void i2c_bitbang_stop_1(struct I2c *i2c)
{
- i2c_sdaLo(I2C_DEV(i2c));
- i2c_sclHi(I2C_DEV(i2c));
- i2c_halfbitDelay(I2C_DEV(i2c));
- i2c_sdaHi(I2C_DEV(i2c));
+ if (old_api)
+ {
+ SDA_LO;
+ SCL_HI;
+ I2C_HALFBIT_DELAY();
+ SDA_HI;
+ }
+ else
+ {
+ i2c_sdaLo(I2C_DEV(i2c));
+ i2c_sclHi(I2C_DEV(i2c));
+ i2c_halfbitDelay(I2C_DEV(i2c));
+ i2c_sdaHi(I2C_DEV(i2c));
+ }
}
INLINE bool i2c_bitbang_start_1(struct I2c *i2c)
{
- i2c_sdaHi(I2C_DEV(i2c));
- i2c_sclHi(I2C_DEV(i2c));
- i2c_halfbitDelay(I2C_DEV(i2c));
- i2c_sdaLo(I2C_DEV(i2c));
- i2c_halfbitDelay(I2C_DEV(i2c));
+ bool ret;
+ /* Clear all error, we restart */
+ i2c->errors &= ~(I2C_NO_ACK | I2C_ARB_LOST);
+
+ if (old_api)
+ {
+ SDA_HI;
+ SCL_HI;
+ I2C_HALFBIT_DELAY();
+ SDA_LO;
+ I2C_HALFBIT_DELAY();
+
+ ret = !SDA_IN;
+ }
+ else
+ {
+ i2c_sdaHi(I2C_DEV(i2c));
+ i2c_sclHi(I2C_DEV(i2c));
+ i2c_halfbitDelay(I2C_DEV(i2c));
+ i2c_sdaLo(I2C_DEV(i2c));
+ i2c_halfbitDelay(I2C_DEV(i2c));
- return !i2c_sdaIn(I2C_DEV(i2c));
+ ret = !i2c_sdaIn(I2C_DEV(i2c));
+ }
+
+ return ret;
}
static uint8_t i2c_bitbang_getc(struct I2c *i2c)
{
uint8_t data = 0;
- for (uint8_t i = 0x80; i != 0; i >>= 1)
+ if (old_api)
{
- i2c_sclLo(I2C_DEV(i2c));
- i2c_halfbitDelay(I2C_DEV(i2c));
- i2c_sclHi(I2C_DEV(i2c));
- if (i2c_sdaIn(I2C_DEV(i2c)))
- data |= i;
+ for (uint8_t i = 0x80; i != 0; i >>= 1)
+ {
+ SCL_LO;
+ I2C_HALFBIT_DELAY();
+ SCL_HI;
+ if (SDA_IN)
+ data |= i;
+ else
+ data &= ~i;
+
+ I2C_HALFBIT_DELAY();
+ }
+ SCL_LO;
+
+ /* Generate ACK/NACK */
+ if (i2c->xfer_size > 1)
+ SDA_LO;
else
- data &= ~i;
+ SDA_HI;
- i2c_halfbitDelay(I2C_DEV(i2c));
+ I2C_HALFBIT_DELAY();
+ SCL_HI;
+ I2C_HALFBIT_DELAY();
+ SCL_LO;
+ SDA_HI;
}
- i2c_sclLo(I2C_DEV(i2c));
-
- /* Generate ACK/NACK */
- if (i2c->xfer_size > 1)
- i2c_sdaLo(I2C_DEV(i2c));
else
- i2c_sdaHi(I2C_DEV(i2c));
+ {
+ for (uint8_t i = 0x80; i != 0; i >>= 1)
+ {
+ i2c_sclLo(I2C_DEV(i2c));
+ i2c_halfbitDelay(I2C_DEV(i2c));
+ i2c_sclHi(I2C_DEV(i2c));
+ if (i2c_sdaIn(I2C_DEV(i2c)))
+ data |= i;
+ else
+ data &= ~i;
+
+ i2c_halfbitDelay(I2C_DEV(i2c));
+ }
+ i2c_sclLo(I2C_DEV(i2c));
- i2c_halfbitDelay(I2C_DEV(i2c));
- i2c_sclHi(I2C_DEV(i2c));
- i2c_halfbitDelay(I2C_DEV(i2c));
- i2c_sclLo(I2C_DEV(i2c));
- i2c_sdaHi(I2C_DEV(i2c));
+ /* Generate ACK/NACK */
+ if (i2c->xfer_size > 1)
+ i2c_sdaLo(I2C_DEV(i2c));
+ else
+ i2c_sdaHi(I2C_DEV(i2c));
+
+ i2c_halfbitDelay(I2C_DEV(i2c));
+ i2c_sclHi(I2C_DEV(i2c));
+ i2c_halfbitDelay(I2C_DEV(i2c));
+ i2c_sclLo(I2C_DEV(i2c));
+ i2c_sdaHi(I2C_DEV(i2c));
+ }
/* Generate stop condition (if requested) */
if ((i2c->xfer_size == 1) && (i2c->flags & I2C_STOP))
return data;
}
-static void i2c_bitbang_putc(struct I2c *i2c, uint8_t _data)
+INLINE void i2c_bitbang_putcStop(struct I2c *i2c, uint8_t _data, bool stop)
{
/* Add ACK bit */
uint16_t data = (_data << 1) | 1;
+ bool ack;
- for (uint16_t i = 0x100; i != 0; i >>= 1)
+ if (old_api)
{
- i2c_sclLo(I2C_DEV(i2c));
- if (data & i)
- i2c_sdaHi(I2C_DEV(i2c));
- else
- i2c_sdaLo(I2C_DEV(i2c));
- i2c_halfbitDelay(I2C_DEV(i2c));
+ for (uint16_t i = 0x100; i != 0; i >>= 1)
+ {
+ SCL_LO;
+ if (data & i)
+ SDA_HI;
+ else
+ SDA_LO;
+ I2C_HALFBIT_DELAY();
+
+ SCL_HI;
+ I2C_HALFBIT_DELAY();
+ }
- i2c_sclHi(I2C_DEV(i2c));
- i2c_halfbitDelay(I2C_DEV(i2c));
+ ack = !SDA_IN;
+ SCL_LO;
+ I2C_HALFBIT_DELAY();
}
+ else
+ {
+ for (uint16_t i = 0x100; i != 0; i >>= 1)
+ {
+ i2c_sclLo(I2C_DEV(i2c));
+ if (data & i)
+ i2c_sdaHi(I2C_DEV(i2c));
+ else
+ i2c_sdaLo(I2C_DEV(i2c));
+ i2c_halfbitDelay(I2C_DEV(i2c));
+
+ i2c_sclHi(I2C_DEV(i2c));
+ i2c_halfbitDelay(I2C_DEV(i2c));
+ }
+ ack = !i2c_sdaIn(I2C_DEV(i2c));
- bool ack = !i2c_sdaIn(I2C_DEV(i2c));
- i2c_sclLo(I2C_DEV(i2c));
- i2c_halfbitDelay(I2C_DEV(i2c));
+ i2c_sclLo(I2C_DEV(i2c));
+ i2c_halfbitDelay(I2C_DEV(i2c));
+ }
if (!ack)
- {
- LOG_ERR("NO ACK received\n");
i2c->errors |= I2C_NO_ACK;
- }
/* Generate stop condition (if requested) */
- if (((i2c->xfer_size == 1) && (i2c->flags & I2C_STOP)) || i2c->errors)
+ if (stop || i2c->errors)
i2c_bitbang_stop_1(i2c);
}
+static void i2c_bitbang_putc(struct I2c *i2c, uint8_t data)
+{
+ i2c_bitbang_putcStop(i2c, data,
+ (i2c->xfer_size == 1) && (i2c->flags & I2C_STOP));
+}
static void i2c_bitbang_start_2(struct I2c *i2c, uint16_t slave_addr)
{
* Loop on the select write sequence: when the device is busy
* writing previously sent data it will reply to the SLA_W
* control byte with a NACK. In this case, we must
- * keep trying until the deveice responds with an ACK.
+ * keep trying until the device responds with an ACK.
*/
ticks_t start = timer_clock();
while (i2c_bitbang_start_1(i2c))
{
- i2c_bitbang_putc(i2c, slave_addr);
+ i2c_bitbang_putcStop(i2c, slave_addr, false);
if (!(i2c->errors & I2C_NO_ACK))
return;
void i2c_hw_bitbangInit(I2c *i2c, int dev)
{
MOD_CHECK(timer);
- i2c->hw = (struct I2cHardware *)(dev - I2C_BITBANG0);
+ if (dev == I2C_BITBANG_OLD)
+ old_api = true;
+ else
+ i2c->hw = (struct I2cHardware *)(dev - I2C_BITBANG0);
+
i2c->vt = &i2c_bitbang_vt;
- i2c_bitbang_init(I2C_DEV(i2c));
- i2c_sdaHi(I2C_DEV(i2c));
- i2c_sclHi(I2C_DEV(i2c));
+ if (old_api)
+ {
+ I2C_BITBANG_HW_INIT;
+ SDA_HI;
+ SCL_HI;
+ }
+ else
+ {
+ i2c_bitbangInit(I2C_DEV(i2c));
+ i2c_sdaHi(I2C_DEV(i2c));
+ i2c_sclHi(I2C_DEV(i2c));
+ }
}