drivers/staging/sm750fb/ddk750_hwi2c.c - kernel/bruno - Git at Google

 #define USE_HW_I2C
 #ifdef USE_HW_I2C
 #include "ddk750_help.h"
 #include "ddk750_reg.h"
 #include "ddk750_hwi2c.h"
 #include "ddk750_power.h"

 #define MAX_HWI2C_FIFO                  16
 #define HWI2C_WAIT_TIMEOUT              0xF0000

 int sm750_hw_i2c_init(
 unsigned char bus_speed_mode
 )
 {
 	unsigned int value;

 	/* Enable GPIO 30 & 31 as IIC clock & data */
 	value = PEEK32(GPIO_MUX);

 	value = FIELD_SET(value, GPIO_MUX, 30, I2C) |
 			  FIELD_SET(0, GPIO_MUX, 31, I2C);
 	POKE32(GPIO_MUX, value);

 	/* Enable Hardware I2C power.
 	 TODO: Check if we need to enable GPIO power?
 	 */
 	enableI2C(1);

 	/* Enable the I2C Controller and set the bus speed mode */
 	value = PEEK32(I2C_CTRL);
 	if (bus_speed_mode == 0)
 		value = FIELD_SET(value, I2C_CTRL, MODE, STANDARD);
 	else
 		value = FIELD_SET(value, I2C_CTRL, MODE, FAST);
 	value = FIELD_SET(value, I2C_CTRL, EN, ENABLE);
 	POKE32(I2C_CTRL, value);

 	return 0;
 }

 void sm750_hw_i2c_close(void)
 {
 	unsigned int value;

 	/* Disable I2C controller */
 	value = PEEK32(I2C_CTRL);
 	value = FIELD_SET(value, I2C_CTRL, EN, DISABLE);
 	POKE32(I2C_CTRL, value);

 	/* Disable I2C Power */
 	enableI2C(0);

 	/* Set GPIO 30 & 31 back as GPIO pins */
 	value = PEEK32(GPIO_MUX);
 	value = FIELD_SET(value, GPIO_MUX, 30, GPIO);
 	value = FIELD_SET(value, GPIO_MUX, 31, GPIO);
 	POKE32(GPIO_MUX, value);
 }

 static long hw_i2c_wait_tx_done(void)
 {
 	unsigned int timeout;

 	/* Wait until the transfer is completed. */
 	timeout = HWI2C_WAIT_TIMEOUT;
 	while ((FIELD_GET(PEEK32(I2C_STATUS),
 			  I2C_STATUS, TX) != I2C_STATUS_TX_COMPLETED) &&
 	       (timeout != 0))
 		timeout--;

 	if (timeout == 0)
 		return (-1);

 	return 0;
 }

 /*
  *  This function writes data to the i2c slave device registers.
  *
  *  Parameters:
  *      addr            - i2c Slave device address
  *      length          - Total number of bytes to be written to the device
  *      buf             - The buffer that contains the data to be written to the
  *                     i2c device.
  *
  *  Return Value:
  *      Total number of bytes those are actually written.
  */
 static unsigned int hw_i2c_write_data(
 	unsigned char addr,
 	unsigned int length,
 	unsigned char *buf
 )
 {
 	unsigned char count, i;
 	unsigned int total_bytes = 0;

 	/* Set the Device Address */
 	POKE32(I2C_SLAVE_ADDRESS, addr & ~0x01);

 	/* Write data.
 	 * Note:
 	 *      Only 16 byte can be accessed per i2c start instruction.
 	 */
 	do {
 		/*
 		 * Reset I2C by writing 0 to I2C_RESET register to
 		 * clear the previous status.
 		 */
 		POKE32(I2C_RESET, 0);

 		/* Set the number of bytes to be written */
 		if (length < MAX_HWI2C_FIFO)
 			count = length - 1;
 		else
 			count = MAX_HWI2C_FIFO - 1;
 		POKE32(I2C_BYTE_COUNT, count);

 		/* Move the data to the I2C data register */
 		for (i = 0; i <= count; i++)
 			POKE32(I2C_DATA0 + i, *buf++);

 		/* Start the I2C */
 		POKE32(I2C_CTRL,
 		       FIELD_SET(PEEK32(I2C_CTRL), I2C_CTRL, CTRL, START));

 		/* Wait until the transfer is completed. */
 		if (hw_i2c_wait_tx_done() != 0)
 			break;

 		/* Substract length */
 		length -= (count + 1);

 		/* Total byte written */
 		total_bytes += (count + 1);

 	} while (length > 0);

 	return total_bytes;
 }

 /*
  *  This function reads data from the slave device and stores them
  *  in the given buffer
  *
  *  Parameters:
  *      addr            - i2c Slave device address
  *      length          - Total number of bytes to be read
  *      buf             - Pointer to a buffer to be filled with the data read
  *                     from the slave device. It has to be the same size as the
  *                     length to make sure that it can keep all the data read.
  *
  *  Return Value:
  *      Total number of actual bytes read from the slave device
  */
 static unsigned int hw_i2c_read_data(
 	unsigned char addr,
 	unsigned int length,
 	unsigned char *buf
 )
 {
 	unsigned char count, i;
 	unsigned int total_bytes = 0;

 	/* Set the Device Address */
 	POKE32(I2C_SLAVE_ADDRESS, addr | 0x01);

 	/* Read data and save them to the buffer.
 	 * Note:
 	 *      Only 16 byte can be accessed per i2c start instruction.
 	 */
 	do {
 		/*
 		 * Reset I2C by writing 0 to I2C_RESET register to
 		 * clear all the status.
 		 */
 		POKE32(I2C_RESET, 0);

 		/* Set the number of bytes to be read */
 		if (length <= MAX_HWI2C_FIFO)
 			count = length - 1;
 		else
 			count = MAX_HWI2C_FIFO - 1;
 		POKE32(I2C_BYTE_COUNT, count);

 		/* Start the I2C */
 		POKE32(I2C_CTRL,
 		       FIELD_SET(PEEK32(I2C_CTRL), I2C_CTRL, CTRL, START));

 		/* Wait until transaction done. */
 		if (hw_i2c_wait_tx_done() != 0)
 			break;

 		/* Save the data to the given buffer */
 		for (i = 0; i <= count; i++)
 			*buf++ = PEEK32(I2C_DATA0 + i);

 		/* Substract length by 16 */
 		length -= (count + 1);

 		/* Number of bytes read. */
 		total_bytes += (count + 1);

 	} while (length > 0);

 	return total_bytes;
 }

 /*
  *  This function reads the slave device's register
  *
  *  Parameters:
  *      deviceAddress   - i2c Slave device address which register
  *                        to be read from
  *      registerIndex   - Slave device's register to be read
  *
  *  Return Value:
  *      Register value
  */
 unsigned char sm750_hw_i2c_read_reg(
 	unsigned char addr,
 	unsigned char reg
 )
 {
 	unsigned char value = (0xFF);

 	if (hw_i2c_write_data(addr, 1, &reg) == 1)
 		hw_i2c_read_data(addr, 1, &value);

 	return value;
 }

 /*
  *  This function writes a value to the slave device's register
  *
  *  Parameters:
  *      deviceAddress   - i2c Slave device address which register
  *                        to be written
  *      registerIndex   - Slave device's register to be written
  *      data            - Data to be written to the register
  *
  *  Result:
  *          0   - Success
  *         -1   - Fail
  */
 int sm750_hw_i2c_write_reg(
 	unsigned char addr,
 	unsigned char reg,
 	unsigned char data
 )
 {
 	unsigned char value[2];

 	value[0] = reg;
 	value[1] = data;
 	if (hw_i2c_write_data(addr, 2, value) == 2)
 		return 0;

 	return (-1);
 }

 #endif
	#define USE_HW_I2C
	#ifdef USE_HW_I2C
	#include "ddk750_help.h"
	#include "ddk750_reg.h"
	#include "ddk750_hwi2c.h"
	#include "ddk750_power.h"

	#define MAX_HWI2C_FIFO 16
	#define HWI2C_WAIT_TIMEOUT 0xF0000

	int sm750_hw_i2c_init(
	unsigned char bus_speed_mode
	)
	{
	unsigned int value;

	/* Enable GPIO 30 & 31 as IIC clock & data */
	value = PEEK32(GPIO_MUX);

	value = FIELD_SET(value, GPIO_MUX, 30, I2C) \|
	FIELD_SET(0, GPIO_MUX, 31, I2C);
	POKE32(GPIO_MUX, value);

	/* Enable Hardware I2C power.
	TODO: Check if we need to enable GPIO power?
	*/
	enableI2C(1);

	/* Enable the I2C Controller and set the bus speed mode */
	value = PEEK32(I2C_CTRL);
	if (bus_speed_mode == 0)
	value = FIELD_SET(value, I2C_CTRL, MODE, STANDARD);
	else
	value = FIELD_SET(value, I2C_CTRL, MODE, FAST);
	value = FIELD_SET(value, I2C_CTRL, EN, ENABLE);
	POKE32(I2C_CTRL, value);

	return 0;
	}

	void sm750_hw_i2c_close(void)
	{
	unsigned int value;

	/* Disable I2C controller */
	value = PEEK32(I2C_CTRL);
	value = FIELD_SET(value, I2C_CTRL, EN, DISABLE);
	POKE32(I2C_CTRL, value);

	/* Disable I2C Power */
	enableI2C(0);

	/* Set GPIO 30 & 31 back as GPIO pins */
	value = PEEK32(GPIO_MUX);
	value = FIELD_SET(value, GPIO_MUX, 30, GPIO);
	value = FIELD_SET(value, GPIO_MUX, 31, GPIO);
	POKE32(GPIO_MUX, value);
	}

	static long hw_i2c_wait_tx_done(void)
	{
	unsigned int timeout;

	/* Wait until the transfer is completed. */
	timeout = HWI2C_WAIT_TIMEOUT;
	while ((FIELD_GET(PEEK32(I2C_STATUS),
	I2C_STATUS, TX) != I2C_STATUS_TX_COMPLETED) &&
	(timeout != 0))
	timeout--;

	if (timeout == 0)
	return (-1);

	return 0;
	}

	/*
	* This function writes data to the i2c slave device registers.
	*
	* Parameters:
	* addr - i2c Slave device address
	* length - Total number of bytes to be written to the device
	* buf - The buffer that contains the data to be written to the
	* i2c device.
	*
	* Return Value:
	* Total number of bytes those are actually written.
	*/
	static unsigned int hw_i2c_write_data(
	unsigned char addr,
	unsigned int length,
	unsigned char *buf
	)
	{
	unsigned char count, i;
	unsigned int total_bytes = 0;

	/* Set the Device Address */
	POKE32(I2C_SLAVE_ADDRESS, addr & ~0x01);

	/* Write data.
	* Note:
	* Only 16 byte can be accessed per i2c start instruction.
	*/
	do {
	/*
	* Reset I2C by writing 0 to I2C_RESET register to
	* clear the previous status.
	*/
	POKE32(I2C_RESET, 0);

	/* Set the number of bytes to be written */
	if (length < MAX_HWI2C_FIFO)
	count = length - 1;
	else
	count = MAX_HWI2C_FIFO - 1;
	POKE32(I2C_BYTE_COUNT, count);

	/* Move the data to the I2C data register */
	for (i = 0; i <= count; i++)
	POKE32(I2C_DATA0 + i, *buf++);

	/* Start the I2C */
	POKE32(I2C_CTRL,
	FIELD_SET(PEEK32(I2C_CTRL), I2C_CTRL, CTRL, START));

	/* Wait until the transfer is completed. */
	if (hw_i2c_wait_tx_done() != 0)
	break;

	/* Substract length */
	length -= (count + 1);

	/* Total byte written */
	total_bytes += (count + 1);

	} while (length > 0);

	return total_bytes;
	}

	/*
	* This function reads data from the slave device and stores them
	* in the given buffer
	*
	* Parameters:
	* addr - i2c Slave device address
	* length - Total number of bytes to be read
	* buf - Pointer to a buffer to be filled with the data read
	* from the slave device. It has to be the same size as the
	* length to make sure that it can keep all the data read.
	*
	* Return Value:
	* Total number of actual bytes read from the slave device
	*/
	static unsigned int hw_i2c_read_data(
	unsigned char addr,
	unsigned int length,
	unsigned char *buf
	)
	{
	unsigned char count, i;
	unsigned int total_bytes = 0;

	/* Set the Device Address */
	POKE32(I2C_SLAVE_ADDRESS, addr \| 0x01);

	/* Read data and save them to the buffer.
	* Note:
	* Only 16 byte can be accessed per i2c start instruction.
	*/
	do {
	/*
	* Reset I2C by writing 0 to I2C_RESET register to
	* clear all the status.
	*/
	POKE32(I2C_RESET, 0);

	/* Set the number of bytes to be read */
	if (length <= MAX_HWI2C_FIFO)
	count = length - 1;
	else
	count = MAX_HWI2C_FIFO - 1;
	POKE32(I2C_BYTE_COUNT, count);

	/* Start the I2C */
	POKE32(I2C_CTRL,
	FIELD_SET(PEEK32(I2C_CTRL), I2C_CTRL, CTRL, START));

	/* Wait until transaction done. */
	if (hw_i2c_wait_tx_done() != 0)
	break;

	/* Save the data to the given buffer */
	for (i = 0; i <= count; i++)
	*buf++ = PEEK32(I2C_DATA0 + i);

	/* Substract length by 16 */
	length -= (count + 1);

	/* Number of bytes read. */
	total_bytes += (count + 1);

	} while (length > 0);

	return total_bytes;
	}

	/*
	* This function reads the slave device's register
	*
	* Parameters:
	* deviceAddress - i2c Slave device address which register
	* to be read from
	* registerIndex - Slave device's register to be read
	*
	* Return Value:
	* Register value
	*/
	unsigned char sm750_hw_i2c_read_reg(
	unsigned char addr,
	unsigned char reg
	)
	{
	unsigned char value = (0xFF);

	if (hw_i2c_write_data(addr, 1, &reg) == 1)
	hw_i2c_read_data(addr, 1, &value);

	return value;
	}

	/*
	* This function writes a value to the slave device's register
	*
	* Parameters:
	* deviceAddress - i2c Slave device address which register
	* to be written
	* registerIndex - Slave device's register to be written
	* data - Data to be written to the register
	*
	* Result:
	* 0 - Success
	* -1 - Fail
	*/
	int sm750_hw_i2c_write_reg(
	unsigned char addr,
	unsigned char reg,
	unsigned char data
	)
	{
	unsigned char value[2];

	value[0] = reg;
	value[1] = data;
	if (hw_i2c_write_data(addr, 2, value) == 2)
	return 0;

	return (-1);
	}

	#endif