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// Platform-dependent functions
# include "platform.h"
# include "c_stdio.h"
# include "c_string.h"
# include "c_stdlib.h"
# include "gpio.h"
# include "user_interface.h"
# include "driver/uart.h"
// Platform specific includes
static void pwms_init ( ) ;
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int platform_init ( )
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{
// Setup PWMs
pwms_init ( ) ;
cmn_platform_init ( ) ;
// All done
return PLATFORM_OK ;
}
// ****************************************************************************
// KEY_LED functions
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uint8_t platform_key_led ( uint8_t level ) {
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uint8_t temp ;
gpio16_output_set ( 1 ) ; // set to high first, for reading key low level
gpio16_input_conf ( ) ;
temp = gpio16_input_get ( ) ;
gpio16_output_conf ( ) ;
gpio16_output_set ( level ) ;
return temp ;
}
// ****************************************************************************
// GPIO functions
# ifdef GPIO_INTERRUPT_ENABLE
extern void lua_gpio_unref ( unsigned pin ) ;
# endif
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int platform_gpio_mode ( unsigned pin , unsigned mode , unsigned pull )
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{
// NODE_DBG("Function platform_gpio_mode() is called. pin_mux:%d, func:%d\n",pin_mux[pin],pin_func[pin]);
if ( pin > = NUM_GPIO )
return - 1 ;
if ( pin = = 0 ) {
if ( mode = = PLATFORM_GPIO_INPUT )
gpio16_input_conf ( ) ;
else
gpio16_output_conf ( ) ;
return 1 ;
}
platform_pwm_close ( pin ) ; // closed from pwm module, if it is used in pwm
switch ( pull ) {
case PLATFORM_GPIO_PULLUP :
PIN_PULLUP_EN ( pin_mux [ pin ] ) ;
break ;
case PLATFORM_GPIO_FLOAT :
PIN_PULLUP_DIS ( pin_mux [ pin ] ) ;
break ;
default :
PIN_PULLUP_DIS ( pin_mux [ pin ] ) ;
break ;
}
switch ( mode ) {
case PLATFORM_GPIO_INPUT :
# ifdef GPIO_INTERRUPT_ENABLE
lua_gpio_unref ( pin ) ; // unref the lua ref call back.
# endif
GPIO_DIS_OUTPUT ( pin_num [ pin ] ) ;
case PLATFORM_GPIO_OUTPUT :
ETS_GPIO_INTR_DISABLE ( ) ;
# ifdef GPIO_INTERRUPT_ENABLE
pin_int_type [ pin ] = GPIO_PIN_INTR_DISABLE ;
# endif
PIN_FUNC_SELECT ( pin_mux [ pin ] , pin_func [ pin ] ) ;
//disable interrupt
gpio_pin_intr_state_set ( GPIO_ID_PIN ( pin_num [ pin ] ) , GPIO_PIN_INTR_DISABLE ) ;
//clear interrupt status
GPIO_REG_WRITE ( GPIO_STATUS_W1TC_ADDRESS , BIT ( pin_num [ pin ] ) ) ;
GPIO_REG_WRITE ( GPIO_PIN_ADDR ( GPIO_ID_PIN ( pin_num [ pin ] ) ) , GPIO_REG_READ ( GPIO_PIN_ADDR ( GPIO_ID_PIN ( pin_num [ pin ] ) ) ) & ( ~ GPIO_PIN_PAD_DRIVER_SET ( GPIO_PAD_DRIVER_ENABLE ) ) ) ; //disable open drain;
ETS_GPIO_INTR_ENABLE ( ) ;
break ;
# ifdef GPIO_INTERRUPT_ENABLE
case PLATFORM_GPIO_INT :
ETS_GPIO_INTR_DISABLE ( ) ;
PIN_FUNC_SELECT ( pin_mux [ pin ] , pin_func [ pin ] ) ;
GPIO_DIS_OUTPUT ( pin_num [ pin ] ) ;
gpio_register_set ( GPIO_PIN_ADDR ( GPIO_ID_PIN ( pin_num [ pin ] ) ) , GPIO_PIN_INT_TYPE_SET ( GPIO_PIN_INTR_DISABLE )
| GPIO_PIN_PAD_DRIVER_SET ( GPIO_PAD_DRIVER_DISABLE )
| GPIO_PIN_SOURCE_SET ( GPIO_AS_PIN_SOURCE ) ) ;
ETS_GPIO_INTR_ENABLE ( ) ;
break ;
# endif
default :
break ;
}
return 1 ;
}
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int platform_gpio_write ( unsigned pin , unsigned level )
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{
// NODE_DBG("Function platform_gpio_write() is called. pin:%d, level:%d\n",GPIO_ID_PIN(pin_num[pin]),level);
if ( pin > = NUM_GPIO )
return - 1 ;
if ( pin = = 0 ) {
gpio16_output_conf ( ) ;
gpio16_output_set ( level ) ;
return 1 ;
}
GPIO_OUTPUT_SET ( GPIO_ID_PIN ( pin_num [ pin ] ) , level ) ;
}
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int platform_gpio_read ( unsigned pin )
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{
// NODE_DBG("Function platform_gpio_read() is called. pin:%d\n",GPIO_ID_PIN(pin_num[pin]));
if ( pin > = NUM_GPIO )
return - 1 ;
if ( pin = = 0 ) {
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// gpio16_input_conf();
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return 0x1 & gpio16_input_get ( ) ;
}
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// GPIO_DIS_OUTPUT(pin_num[pin]);
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return 0x1 & GPIO_INPUT_GET ( GPIO_ID_PIN ( pin_num [ pin ] ) ) ;
}
# ifdef GPIO_INTERRUPT_ENABLE
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static void platform_gpio_intr_dispatcher ( platform_gpio_intr_handler_fn_t cb ) {
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uint8 i , level ;
uint32 gpio_status = GPIO_REG_READ ( GPIO_STATUS_ADDRESS ) ;
for ( i = 0 ; i < GPIO_PIN_NUM ; i + + ) {
if ( pin_int_type [ i ] & & ( gpio_status & BIT ( pin_num [ i ] ) ) ) {
//disable interrupt
gpio_pin_intr_state_set ( GPIO_ID_PIN ( pin_num [ i ] ) , GPIO_PIN_INTR_DISABLE ) ;
//clear interrupt status
GPIO_REG_WRITE ( GPIO_STATUS_W1TC_ADDRESS , gpio_status & BIT ( pin_num [ i ] ) ) ;
level = 0x1 & GPIO_INPUT_GET ( GPIO_ID_PIN ( pin_num [ i ] ) ) ;
if ( cb ) {
cb ( i , level ) ;
}
gpio_pin_intr_state_set ( GPIO_ID_PIN ( pin_num [ i ] ) , pin_int_type [ i ] ) ;
}
}
}
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void platform_gpio_init ( platform_gpio_intr_handler_fn_t cb )
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{
ETS_GPIO_INTR_ATTACH ( platform_gpio_intr_dispatcher , cb ) ;
}
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int platform_gpio_intr_init ( unsigned pin , GPIO_INT_TYPE type )
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{
if ( pin > = NUM_GPIO )
return - 1 ;
ETS_GPIO_INTR_DISABLE ( ) ;
//clear interrupt status
GPIO_REG_WRITE ( GPIO_STATUS_W1TC_ADDRESS , BIT ( pin_num [ pin ] ) ) ;
pin_int_type [ pin ] = type ;
//enable interrupt
gpio_pin_intr_state_set ( GPIO_ID_PIN ( pin_num [ pin ] ) , type ) ;
ETS_GPIO_INTR_ENABLE ( ) ;
}
# endif
// ****************************************************************************
// UART
// TODO: Support timeouts.
// UartDev is defined and initialized in rom code.
extern UartDevice UartDev ;
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uint32_t platform_uart_setup ( unsigned id , uint32_t baud , int databits , int parity , int stopbits )
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{
switch ( baud )
{
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case BIT_RATE_300 :
case BIT_RATE_600 :
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case BIT_RATE_1200 :
case BIT_RATE_2400 :
case BIT_RATE_4800 :
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case BIT_RATE_9600 :
case BIT_RATE_19200 :
case BIT_RATE_38400 :
case BIT_RATE_57600 :
case BIT_RATE_74880 :
case BIT_RATE_115200 :
case BIT_RATE_230400 :
case BIT_RATE_460800 :
case BIT_RATE_921600 :
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case BIT_RATE_1843200 :
case BIT_RATE_3686400 :
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UartDev . baut_rate = baud ;
break ;
default :
UartDev . baut_rate = BIT_RATE_9600 ;
break ;
}
switch ( databits )
{
case 5 :
UartDev . data_bits = FIVE_BITS ;
break ;
case 6 :
UartDev . data_bits = SIX_BITS ;
break ;
case 7 :
UartDev . data_bits = SEVEN_BITS ;
break ;
case 8 :
UartDev . data_bits = EIGHT_BITS ;
break ;
default :
UartDev . data_bits = EIGHT_BITS ;
break ;
}
switch ( stopbits )
{
case PLATFORM_UART_STOPBITS_1 :
UartDev . stop_bits = ONE_STOP_BIT ;
break ;
case PLATFORM_UART_STOPBITS_2 :
UartDev . stop_bits = TWO_STOP_BIT ;
break ;
default :
UartDev . stop_bits = ONE_STOP_BIT ;
break ;
}
switch ( parity )
{
case PLATFORM_UART_PARITY_EVEN :
UartDev . parity = EVEN_BITS ;
break ;
case PLATFORM_UART_PARITY_ODD :
UartDev . parity = ODD_BITS ;
break ;
default :
UartDev . parity = NONE_BITS ;
break ;
}
uart_setup ( id ) ;
return baud ;
}
// Send: version with and without mux
void platform_uart_send ( unsigned id , u8 data )
{
uart_tx_one_char ( id , data ) ;
}
// ****************************************************************************
// PWMs
static uint16_t pwms_duty [ NUM_PWM ] = { 0 } ;
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static void pwms_init ( )
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{
int i ;
for ( i = 0 ; i < NUM_PWM ; i + + ) {
pwms_duty [ i ] = DUTY ( 0 ) ;
}
pwm_init ( 500 , NULL ) ;
// NODE_DBG("Function pwms_init() is called.\n");
}
// Return the PWM clock
// NOTE: Can't find a function to query for the period set for the timer,
// therefore using the struct.
// This may require adjustment if driver libraries are updated.
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uint32_t platform_pwm_get_clock ( unsigned pin )
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{
// NODE_DBG("Function platform_pwm_get_clock() is called.\n");
if ( pin > = NUM_PWM )
return 0 ;
if ( ! pwm_exist ( pin ) )
return 0 ;
return ( uint32_t ) pwm_get_freq ( pin ) ;
}
// Set the PWM clock
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uint32_t platform_pwm_set_clock ( unsigned pin , uint32_t clock )
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{
// NODE_DBG("Function platform_pwm_set_clock() is called.\n");
if ( pin > = NUM_PWM )
return 0 ;
if ( ! pwm_exist ( pin ) )
return 0 ;
pwm_set_freq ( ( uint16_t ) clock , pin ) ;
pwm_start ( ) ;
return ( uint32_t ) pwm_get_freq ( pin ) ;
}
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uint32_t platform_pwm_get_duty ( unsigned pin )
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{
// NODE_DBG("Function platform_pwm_get_duty() is called.\n");
if ( pin < NUM_PWM ) {
if ( ! pwm_exist ( pin ) )
return 0 ;
// return NORMAL_DUTY(pwm_get_duty(pin));
return pwms_duty [ pin ] ;
}
return 0 ;
}
// Set the PWM duty
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uint32_t platform_pwm_set_duty ( unsigned pin , uint32_t duty )
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{
// NODE_DBG("Function platform_pwm_set_duty() is called.\n");
if ( pin < NUM_PWM )
{
if ( ! pwm_exist ( pin ) )
return 0 ;
pwm_set_duty ( DUTY ( duty ) , pin ) ;
} else {
return 0 ;
}
pwm_start ( ) ;
pwms_duty [ pin ] = NORMAL_DUTY ( pwm_get_duty ( pin ) ) ;
return pwms_duty [ pin ] ;
}
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uint32_t platform_pwm_setup ( unsigned pin , uint32_t frequency , unsigned duty )
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{
uint32_t clock ;
if ( pin < NUM_PWM )
{
platform_gpio_mode ( pin , PLATFORM_GPIO_OUTPUT , PLATFORM_GPIO_FLOAT ) ; // disable gpio interrupt first
if ( ! pwm_add ( pin ) )
return 0 ;
// pwm_set_duty(DUTY(duty), pin);
pwm_set_duty ( 0 , pin ) ;
pwms_duty [ pin ] = duty ;
pwm_set_freq ( ( uint16_t ) frequency , pin ) ;
} else {
return 0 ;
}
clock = platform_pwm_get_clock ( pin ) ;
pwm_start ( ) ;
return clock ;
}
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void platform_pwm_close ( unsigned pin )
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{
// NODE_DBG("Function platform_pwm_stop() is called.\n");
if ( pin < NUM_PWM )
{
pwm_delete ( pin ) ;
pwm_start ( ) ;
}
}
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void platform_pwm_start ( unsigned pin )
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{
// NODE_DBG("Function platform_pwm_start() is called.\n");
if ( pin < NUM_PWM )
{
if ( ! pwm_exist ( pin ) )
return ;
pwm_set_duty ( DUTY ( pwms_duty [ pin ] ) , pin ) ;
pwm_start ( ) ;
}
}
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void platform_pwm_stop ( unsigned pin )
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{
// NODE_DBG("Function platform_pwm_stop() is called.\n");
if ( pin < NUM_PWM )
{
if ( ! pwm_exist ( pin ) )
return ;
pwm_set_duty ( 0 , pin ) ;
pwm_start ( ) ;
}
}
// *****************************************************************************
// I2C platform interface
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uint32_t platform_i2c_setup ( unsigned id , uint8_t sda , uint8_t scl , uint32_t speed ) {
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if ( sda > = NUM_GPIO | | scl > = NUM_GPIO )
return 0 ;
// platform_pwm_close(sda);
// platform_pwm_close(scl);
// disable gpio interrupt first
platform_gpio_mode ( sda , PLATFORM_GPIO_INPUT , PLATFORM_GPIO_PULLUP ) ; // inside this func call platform_pwm_close
platform_gpio_mode ( scl , PLATFORM_GPIO_INPUT , PLATFORM_GPIO_PULLUP ) ; // disable gpio interrupt first
i2c_master_gpio_init ( sda , scl ) ;
return PLATFORM_I2C_SPEED_SLOW ;
}
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void platform_i2c_send_start ( unsigned id ) {
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i2c_master_start ( ) ;
}
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void platform_i2c_send_stop ( unsigned id ) {
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i2c_master_stop ( ) ;
}
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int platform_i2c_send_address ( unsigned id , uint16_t address , int direction ) {
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// Convert enum codes to R/w bit value.
// If TX == 0 and RX == 1, this test will be removed by the compiler
if ( ! ( PLATFORM_I2C_DIRECTION_TRANSMITTER = = 0 & &
PLATFORM_I2C_DIRECTION_RECEIVER = = 1 ) ) {
direction = ( direction = = PLATFORM_I2C_DIRECTION_TRANSMITTER ) ? 0 : 1 ;
}
i2c_master_writeByte ( ( uint8_t ) ( ( address < < 1 ) | direction ) ) ;
// Low-level returns nack (0=acked); we return ack (1=acked).
return ! i2c_master_getAck ( ) ;
}
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int platform_i2c_send_byte ( unsigned id , uint8_t data ) {
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i2c_master_writeByte ( data ) ;
// Low-level returns nack (0=acked); we return ack (1=acked).
return ! i2c_master_getAck ( ) ;
}
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int platform_i2c_recv_byte ( unsigned id , int ack ) {
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uint8_t r = i2c_master_readByte ( ) ;
i2c_master_setAck ( ! ack ) ;
return r ;
}
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static uint8_t platform_spi_fdplx [ NUM_SPI ] = { 0 , 0 } ;
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// *****************************************************************************
// SPI platform interface
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uint32_t platform_spi_setup ( uint8_t id , int mode , unsigned cpol , unsigned cpha ,
uint32_t clock_div , uint8 full_duplex )
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{
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platform_spi_fdplx [ id ] = full_duplex ;
spi_master_init ( id , cpol , cpha , clock_div , full_duplex ) ;
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return 1 ;
}
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int platform_spi_send ( uint8_t id , uint8_t bitlen , spi_data_type data )
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{
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if ( bitlen > 32 )
return PLATFORM_ERR ;
spi_mast_transaction ( id , 0 , 0 , bitlen , data , 0 , 0 , 0 ) ;
return PLATFORM_OK ;
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}
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spi_data_type platform_spi_send_recv ( uint8_t id , uint8_t bitlen , spi_data_type data )
{
if ( bitlen > 32 )
return 0 ;
spi_mast_set_mosi ( id , 0 , bitlen , data ) ;
spi_mast_transaction ( id , 0 , 0 , 0 , 0 , bitlen , 0 , platform_spi_fdplx [ id ] > 0 ? 0 : bitlen ) ;
return spi_mast_get_miso ( id , 0 , bitlen ) ;
}
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int platform_spi_set_mosi ( uint8_t id , uint8_t offset , uint8_t bitlen , spi_data_type data )
{
if ( offset + bitlen > 512 )
return PLATFORM_ERR ;
spi_mast_set_mosi ( id , offset , bitlen , data ) ;
return PLATFORM_OK ;
}
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spi_data_type platform_spi_get_miso ( uint8_t id , uint8_t offset , uint8_t bitlen )
{
if ( offset + bitlen > 512 )
return 0 ;
return spi_mast_get_miso ( id , offset , bitlen ) ;
}
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int platform_spi_transaction ( uint8_t id , uint8_t cmd_bitlen , spi_data_type cmd_data ,
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uint8_t addr_bitlen , spi_data_type addr_data ,
uint8_t mosi_bitlen , uint8_t dummy_bitlen , uint8_t miso_bitlen )
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{
if ( ( cmd_bitlen > 16 ) | |
( addr_bitlen > 32 ) | |
( mosi_bitlen > 512 ) | |
( dummy_bitlen > 256 ) | |
( miso_bitlen > 512 ) )
return PLATFORM_ERR ;
spi_mast_transaction ( id , cmd_bitlen , cmd_data , addr_bitlen , addr_data , mosi_bitlen , dummy_bitlen , miso_bitlen ) ;
return PLATFORM_OK ;
}
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// ****************************************************************************
// Flash access functions
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/*
* Assumptions :
* > toaddr is INTERNAL_FLASH_WRITE_UNIT_SIZE aligned
* > size is a multiple of INTERNAL_FLASH_WRITE_UNIT_SIZE
*/
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uint32_t platform_s_flash_write ( const void * from , uint32_t toaddr , uint32_t size )
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{
toaddr - = INTERNAL_FLASH_START_ADDRESS ;
SpiFlashOpResult r ;
const uint32_t blkmask = INTERNAL_FLASH_WRITE_UNIT_SIZE - 1 ;
uint32_t * apbuf = NULL ;
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uint32_t fromaddr = ( uint32_t ) from ;
if ( ( fromaddr & blkmask ) | | ( fromaddr > = INTERNAL_FLASH_START_ADDRESS ) ) {
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apbuf = ( uint32_t * ) c_malloc ( size ) ;
if ( ! apbuf )
return 0 ;
c_memcpy ( apbuf , from , size ) ;
}
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system_soft_wdt_feed ( ) ;
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r = flash_write ( toaddr , apbuf ? ( uint32 * ) apbuf : ( uint32 * ) from , size ) ;
if ( apbuf )
c_free ( apbuf ) ;
if ( SPI_FLASH_RESULT_OK = = r )
return size ;
else {
NODE_ERR ( " ERROR in flash_write: r=%d at %08X \n " , ( int ) r , ( unsigned ) toaddr + INTERNAL_FLASH_START_ADDRESS ) ;
return 0 ;
}
}
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/*
* Assumptions :
* > fromaddr is INTERNAL_FLASH_READ_UNIT_SIZE aligned
* > size is a multiple of INTERNAL_FLASH_READ_UNIT_SIZE
*/
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uint32_t platform_s_flash_read ( void * to , uint32_t fromaddr , uint32_t size )
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{
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if ( size = = 0 )
return 0 ;
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fromaddr - = INTERNAL_FLASH_START_ADDRESS ;
SpiFlashOpResult r ;
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system_soft_wdt_feed ( ) ;
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const uint32_t blkmask = ( INTERNAL_FLASH_READ_UNIT_SIZE - 1 ) ;
if ( ( ( uint32_t ) to ) & blkmask )
{
uint32_t size2 = size - INTERNAL_FLASH_READ_UNIT_SIZE ;
uint32 * to2 = ( uint32 * ) ( ( ( ( uint32_t ) to ) & ( ~ blkmask ) ) + INTERNAL_FLASH_READ_UNIT_SIZE ) ;
r = flash_read ( fromaddr , to2 , size2 ) ;
if ( SPI_FLASH_RESULT_OK = = r )
{
os_memmove ( to , to2 , size2 ) ;
char back [ INTERNAL_FLASH_READ_UNIT_SIZE ] __attribute__ ( ( aligned ( INTERNAL_FLASH_READ_UNIT_SIZE ) ) ) ;
r = flash_read ( fromaddr + size2 , ( uint32 * ) back , INTERNAL_FLASH_READ_UNIT_SIZE ) ;
os_memcpy ( ( uint8_t * ) to + size2 , back , INTERNAL_FLASH_READ_UNIT_SIZE ) ;
}
}
else
r = flash_read ( fromaddr , ( uint32 * ) to , size ) ;
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if ( SPI_FLASH_RESULT_OK = = r )
return size ;
else {
NODE_ERR ( " ERROR in flash_read: r=%d at %08X \n " , ( int ) r , ( unsigned ) fromaddr + INTERNAL_FLASH_START_ADDRESS ) ;
return 0 ;
}
}
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int platform_flash_erase_sector ( uint32_t sector_id )
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{
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system_soft_wdt_feed ( ) ;
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return flash_erase ( sector_id ) = = SPI_FLASH_RESULT_OK ? PLATFORM_OK : PLATFORM_ERR ;
}