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/* Copyright (c) 2005 Advanced Micro Devices, Inc.
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to
* deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
*
* Neither the name of the Advanced Micro Devices, Inc. nor the names of its
* contributors may be used to endorse or promote products derived from this
* software without specific prior written permission.
* */
/*
* This file contains routines to write to and read from the I2C bus using
* the GPIO pins of the CS5530.
* */
/* STATIC VARIABLES TO STORE WHAT GPIO PINS TO USE */
int gpio_clock = 0;
int gpio_data = 0;
static int g_initialized = 0;
#define I2CWRITE 0x00 /* Write address */
#define I2CREAD 0x01 /* Read address */
#define I2CACK 0x00 /* Ack value */
#define I2CNACK 0x01 /* Not - ack value */
#define CS5530_ID (0x80000000 | (0x00<<16) | (0x12<<11) | (0<<8) | 0x00)
#define CS5530_GPIO (0x80000000 | (0x00<<16) | (0x12<<11) | (0<<8) | 0x90)
#define SDA 0x0800
#define SCL 0x0400
#define SDADIR 0x0008
#define SCLDIR 0x0004
int I2C_init(void);
void I2C_cleanup(void);
int I2C_Read(unsigned char address, unsigned int reg, unsigned long *p_value,
unsigned int bytes);
int I2C_Write(unsigned char address, unsigned int reg, unsigned long value,
unsigned int bytes);
int I2CAL_init(void);
void I2CAL_cleanup(void);
void I2CAL_output_clock(int state);
void I2CAL_output_data(int state);
unsigned char I2CAL_input_data(void);
void I2CAL_set_data_for_input(void);
void I2CAL_set_data_for_output(void);
void SendI2CStart(void);
void SendI2CData(unsigned char inData);
unsigned char ReceiveI2CAck(void);
void SendI2CStop(void);
void SendI2CNack(void);
void SendI2CAck(void);
unsigned char ReceiveI2CData(void);
/* ### ADD ### ANY LOCAL ROUTINE DEFINITIONS SPECIFIC TO GPIO */
/*---------------------------------------------------------------------------
* gfx_i2c_reset
*
* This routine resets the I2C bus.
*---------------------------------------------------------------------------
*/
#if GFX_I2C_DYNAMIC
int
gpio_i2c_reset(unsigned char busnum, short adr, char freq)
#else
int
gfx_i2c_reset(unsigned char busnum, short adr, char freq)
#endif
{
/* ### ADD ### Any code needed to reset the state of the GPIOs. */
return GFX_STATUS_OK;
}
/*---------------------------------------------------------------------------
* gfx_i2c_select_gpio
*
* This routine selects which GPIO pins to use.
*---------------------------------------------------------------------------
*/
#if GFX_I2C_DYNAMIC
int
gpio_i2c_select_gpio(int clock, int data)
#else
int
gfx_i2c_select_gpio(int clock, int data)
#endif
{
gpio_clock = clock;
gpio_data = data;
return (0);
}
/*---------------------------------------------------------------------------
* gfx_i2c_write
*
* This routine writes data to the specified I2C address.
*---------------------------------------------------------------------------
*/
#if GFX_I2C_DYNAMIC
int
gpio_i2c_write(unsigned char busnum, unsigned char address, unsigned char reg,
unsigned char bytes, unsigned char *value)
#else
int
gfx_i2c_write(unsigned char busnum, unsigned char address, unsigned char reg,
unsigned char bytes, unsigned char *value)
#endif
{
/* ### ADD ### CODE TO WRITE BYTE TO I2B BUS */
int restart_count = 0;
while (restart_count++ < 5) {
/* set the access pointer register. */
/* The address is shifted left by one to make room for Read/Write
* bit */
SendI2CStart();
SendI2CData((char)((address << 1) | I2CWRITE));
if (!ReceiveI2CAck()) {
SendI2CStop();
gfx_delay_milliseconds(10);
continue;
}
SendI2CData((unsigned char)reg);
if (!ReceiveI2CAck()) {
SendI2CStop();
gfx_delay_milliseconds(10);
continue;
}
/* write the first byte */
SendI2CData(*value);
if (!ReceiveI2CAck()) {
SendI2CStop();
gfx_delay_milliseconds(10);
continue;
}
/* write the second byte. */
if (bytes == 2) {
SendI2CData(*(value + 1));
if (!ReceiveI2CAck()) {
SendI2CStop();
gfx_delay_milliseconds(10);
continue;
}
}
/* done. */
SendI2CStop();
return 0;
}
return (0);
}
/*---------------------------------------------------------------------------
* gfx_i2c_read
*
* This routine reads data from the specified I2C address.
*---------------------------------------------------------------------------
*/
#if GFX_I2C_DYNAMIC
int
gpio_i2c_read(unsigned char busnum, unsigned char address, unsigned char reg,
unsigned char bytes, unsigned char *p_value)
#else
int
gfx_i2c_read(unsigned char busnum, unsigned char address, unsigned char reg,
unsigned char bytes, unsigned char *p_value)
#endif
{
/* ### ADD ### CODE TO WRITE BYTE TO I2B BUS */
/* For now return clock and data pins */
int restart_count = 0;
if (!p_value)
return (1);
while (restart_count++ < 5) {
/* set the access pointer register. */
/* The address is shifted left by one to make room for Read/Write
* bit */
SendI2CStart();
SendI2CData((char)((address << 1) | I2CWRITE));
if (!ReceiveI2CAck()) {
SendI2CStop();
gfx_delay_milliseconds(10);
continue;
}
SendI2CData((unsigned char)(reg & 0xFF));
SendI2CNack();
/* read the first data byte. */
SendI2CStart();
SendI2CData((char)((address << 1) | I2CREAD));
if (!ReceiveI2CAck()) {
SendI2CStop();
gfx_delay_milliseconds(10);
continue;
}
*p_value = ReceiveI2CData();
/* read the second byte. */
if (bytes == 2) {
SendI2CAck();
*(p_value + 1) = ReceiveI2CData();
}
/* done. */
SendI2CNack();
SendI2CStop();
return 0;
}
return (1);
}
/* Added i2c/gpio code to test fs451 chip. */
/*
* ----------------------------------------------------------------------
*
* void SendI2CStart(void)
*
* Sends an I2C start signal on the bus.
*
*----------------------------------------------------------------------
*/
void
SendI2CStart(void)
{
I2CAL_output_data(1);
I2CAL_output_clock(1);
I2CAL_output_data(0);
I2CAL_output_clock(0);
}
/*
*----------------------------------------------------------------------
*
* void SendI2CStop(void)
*
* Sends an I2C stop signal on the bus.
*
*----------------------------------------------------------------------
*/
void
SendI2CStop(void)
{
I2CAL_output_data(0);
I2CAL_output_clock(1);
I2CAL_output_data(1);
}
/*
*----------------------------------------------------------------------
*
* void SendI2CAck(void)
*
* Sends the Ack signal on the I2C bus.
*
*----------------------------------------------------------------------
*/
void
SendI2CAck(void)
{
I2CAL_output_data(0);
I2CAL_output_clock(1);
I2CAL_output_clock(0);
}
/*
*----------------------------------------------------------------------
*
* void SendI2CNack(void)
*
* Sends the Nt-Ack signal on the I2C bus.
*
*----------------------------------------------------------------------
*/
void
SendI2CNack(void)
{
I2CAL_output_data(1);
I2CAL_output_clock(1);
I2CAL_output_clock(0);
}
/*
*----------------------------------------------------------------------
*
* UInt8 SendI2CData( UInt8 inData )
*
* Sends a byte of data on the I2C bus and returns the TRUE if the slave
* ACK'dthe data.
*
* Input: inData - the byte of data to send
* Output: (return) - TRUE (1) if ACK was received, FALSE (0) if not
*
*----------------------------------------------------------------------
*/
void
SendI2CData(unsigned char inData)
{
unsigned char bit;
/* Send all 8 bits of data byte, MSB to LSB */
for (bit = 0x80; bit != 0; bit >>= 1) {
if (inData & bit)
I2CAL_output_data(1);
else
I2CAL_output_data(0);
I2CAL_output_clock(1);
I2CAL_output_clock(0);
}
}
/*
*----------------------------------------------------------------------
*
* UInt8 ReceiveI2CAck( )
*
* Receives the Ack (or Nack) from the slave.
*
* Output: (return) - TRUE (1) if ACK was received, FALSE (0) if not
*
*----------------------------------------------------------------------
*/
unsigned char
ReceiveI2CAck(void)
{
unsigned char bit;
/* Test for Ack/Nack */
I2CAL_set_data_for_input();
I2CAL_output_data(1);
I2CAL_output_clock(1);
bit = I2CAL_input_data();
I2CAL_output_clock(0);
I2CAL_set_data_for_output();
return !bit;
}
/*
*----------------------------------------------------------------------
*
* unsigned char ReceiveI2CData(void)
*
* Receives a byte of data from the I2C bus.
*
* Output: (return) - The data byte recehved from the bus
*
*----------------------------------------------------------------------
*/
unsigned char
ReceiveI2CData(void)
{
unsigned char data = 0;
unsigned char x;
/* make sure the data line is released */
I2CAL_set_data_for_input();
I2CAL_output_data(1);
/* shift in the data */
for (x = 0; x < 8; x++) {
/* shift the data left */
I2CAL_output_clock(1);
data <<= 1;
data |= I2CAL_input_data();
I2CAL_output_clock(0);
}
I2CAL_set_data_for_output();
I2CAL_output_data(1);
return data;
}
/*
*----------------------------------------------------------------------
*
* void I2C_init(void)
*
* This routine initializes the I2C interface. Clients of the I2C.c
* will call this routine before calling any other routine in the I2C.c
*
*----------------------------------------------------------------------
*/
#if GFX_I2C_DYNAMIC
int
gpio_i2c_init(void)
#else
int
gfx_i2c_init(void)
#endif
{
int errc;
/* init I2CAL */
errc = I2CAL_init();
if (errc)
return errc;
/* set the clock and data lines to the proper states */
I2CAL_output_clock(1);
I2CAL_output_data(1);
I2CAL_set_data_for_output();
SendI2CStart();
SendI2CStop();
SendI2CStop();
g_initialized = 1;
return 0;
}
/*
*----------------------------------------------------------------------
*
* void I2C_cleanup(void)
*
* This routine disables the I2C interface. Clients of the I2C.c will not
* call any other I2C routine after calling this routine.
*
*----------------------------------------------------------------------
*/
#if GFX_I2C_DYNAMIC
void
gpio_i2c_cleanup(void)
#else
void
gfx_i2c_cleanup(void)
#endif
{
if (g_initialized) {
/* set the clock and data lines to a harmless state */
I2CAL_output_clock(1);
I2CAL_output_data(1);
g_initialized = 0;
}
I2CAL_cleanup();
}
int
I2CAL_init(void)
{
unsigned long l_reg;
unsigned short reg;
/* initialize the i2c port. */
l_reg = gfx_pci_config_read(CS5530_GPIO);
if (l_reg != 0x01001078)
return 1;
l_reg = gfx_pci_config_read(CS5530_GPIO);
reg = (unsigned short)l_reg;
/* both outputs, both high. */
reg |= (SDADIR | SCLDIR | SDA | SCL);
l_reg = reg;
gfx_pci_config_write(CS5530_GPIO, l_reg);
g_initialized = 1;
return 0;
}
void
I2CAL_cleanup(void)
{
if (g_initialized) {
g_initialized = 0;
}
}
/*
*----------------------------------------------------------------------------
*
* set the I2C clock line state
*
*----------------------------------------------------------------------------
*/
void
I2CAL_output_clock(int inState)
{
unsigned short reg;
unsigned long value;
value = gfx_pci_config_read(CS5530_GPIO);
reg = (unsigned short)value;
if (inState) { /* write a 1. */
reg |= SCL;
} else { /* write a 0. */
reg &= ~SCL;
}
value = reg;
gfx_pci_config_write(CS5530_GPIO, value);
/* hold it for a minimum of 4.7us */
gfx_delay_microseconds(5);
}
/*
*----------------------------------------------------------------------------
*
* set the I2C data line state
*
*----------------------------------------------------------------------------
*/
void
I2CAL_output_data(int inState)
{
unsigned short reg;
unsigned long value;
value = gfx_pci_config_read(CS5530_GPIO);
reg = (unsigned short)value;
if (inState) { /* write a 1. */
reg |= SDA;
} else {
/* write a 0. */
reg &= ~SDA;
}
value = reg;
gfx_pci_config_write(CS5530_GPIO, value);
/* 250 ns setup time */
gfx_delay_microseconds(1);
}
/*
*----------------------------------------------------------------------------
*
* read the state of the data line
*
*----------------------------------------------------------------------------
*/
unsigned char
I2CAL_input_data(void)
{
unsigned short reg;
unsigned long value;
value = gfx_pci_config_read(CS5530_GPIO);
reg = (unsigned short)value;
if (reg & SDA)
return 1;
else
return 0;
}
/*
*----------------------------------------------------------------------------
*
* set the I2C data for input mode
*
*----------------------------------------------------------------------------
*/
void
I2CAL_set_data_for_input(void)
{
unsigned short reg;
unsigned long value;
value = gfx_pci_config_read(CS5530_GPIO);
reg = (unsigned short)value;
reg &= ~SDADIR;
value = reg;
gfx_pci_config_write(CS5530_GPIO, value);
}
/*
*----------------------------------------------------------------------------
*
* set the I2C data for output mode
*
*----------------------------------------------------------------------------
*/
void
I2CAL_set_data_for_output(void)
{
unsigned short reg;
unsigned long value;
value = gfx_pci_config_read(CS5530_GPIO);
reg = (unsigned short)value;
reg |= SDADIR;
value = reg;
gfx_pci_config_write(CS5530_GPIO, value);
}
/* END OF FILE */
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