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/******************************************************************************
* Copyright 2013 - 2014 Espressif Systems ( Wuxi )
*
* FileName : pwm . c
*
* Description : pwm driver
*
* Modification history :
* 2014 / 5 / 1 , v1 .0 create this file .
* 2016 / 3 / 2 : Modifications by dpgeorge to suit MicroPython
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# include <stdio.h>
# include <string.h>
# include "etshal.h"
# include "os_type.h"
# include "gpio.h"
# include "esppwm.h"
# include "py/mpprint.h"
# define PWM_DBG(...)
//#define PWM_DBG(...) mp_printf(&mp_plat_print, __VA_ARGS__)
# define ICACHE_RAM_ATTR // __attribute__((section(".text")))
# define PWM_CHANNEL 8
# define PWM_DEPTH 1023
# define PWM_FREQ_MAX 1000
# define PWM_1S 1000000
struct pwm_single_param {
uint16_t gpio_set ;
uint16_t gpio_clear ;
uint32_t h_time ;
} ;
struct pwm_param {
uint32_t period ;
uint16_t freq ;
uint16_t duty [ PWM_CHANNEL ] ;
} ;
STATIC const uint8_t pin_num [ PWM_CHANNEL ] = { 0 , 2 , 4 , 5 , 12 , 13 , 14 , 15 } ;
STATIC struct pwm_single_param pwm_single_toggle [ 2 ] [ PWM_CHANNEL + 1 ] ;
STATIC struct pwm_single_param * pwm_single ;
STATIC struct pwm_param pwm ;
STATIC int8_t pwm_out_io_num [ PWM_CHANNEL ] = { - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 , - 1 } ;
STATIC uint8_t pwm_channel_toggle [ 2 ] ;
STATIC uint8_t * pwm_channel ;
STATIC uint8_t pwm_toggle = 1 ;
STATIC uint8_t pwm_timer_down = 1 ;
STATIC uint8_t pwm_current_channel = 0 ;
STATIC uint16_t pwm_gpio = 0 ;
STATIC uint8_t pwm_channel_num = 0 ;
//XXX: 0xffffffff/(80000000/16)=35A
# define US_TO_RTC_TIMER_TICKS(t) \
( ( t ) ? \
( ( ( t ) > 0x35A ) ? \
( ( ( t ) > > 2 ) * ( ( APB_CLK_FREQ > > 4 ) / 250000 ) + ( ( t ) & 0x3 ) * ( ( APB_CLK_FREQ > > 4 ) / 1000000 ) ) : \
( ( ( t ) * ( APB_CLK_FREQ > > 4 ) ) / 1000000 ) ) : \
0 )
//FRC1
# define FRC1_ENABLE_TIMER BIT7
typedef enum {
DIVDED_BY_1 = 0 ,
DIVDED_BY_16 = 4 ,
DIVDED_BY_256 = 8 ,
} TIMER_PREDIVED_MODE ;
typedef enum {
TM_LEVEL_INT = 1 ,
TM_EDGE_INT = 0 ,
} TIMER_INT_MODE ;
STATIC void ICACHE_FLASH_ATTR
pwm_insert_sort ( struct pwm_single_param pwm [ ] , uint8 n )
{
uint8 i ;
for ( i = 1 ; i < n ; i + + ) {
if ( pwm [ i ] . h_time < pwm [ i - 1 ] . h_time ) {
int8 j = i - 1 ;
struct pwm_single_param tmp ;
memcpy ( & tmp , & pwm [ i ] , sizeof ( struct pwm_single_param ) ) ;
memcpy ( & pwm [ i ] , & pwm [ i - 1 ] , sizeof ( struct pwm_single_param ) ) ;
while ( tmp . h_time < pwm [ j ] . h_time ) {
memcpy ( & pwm [ j + 1 ] , & pwm [ j ] , sizeof ( struct pwm_single_param ) ) ;
j - - ;
if ( j < 0 ) {
break ;
}
}
memcpy ( & pwm [ j + 1 ] , & tmp , sizeof ( struct pwm_single_param ) ) ;
}
}
}
STATIC volatile uint8 critical = 0 ;
# define LOCK_PWM(c) do { \
while ( ( c ) = = 1 ) ; \
( c ) = 1 ; \
} while ( 0 )
# define UNLOCK_PWM(c) do { \
( c ) = 0 ; \
} while ( 0 )
void ICACHE_FLASH_ATTR
pwm_start ( void )
{
uint8 i , j ;
PWM_DBG ( " --Function pwm_start() is called \n " ) ;
PWM_DBG ( " pwm_gpio:%x,pwm_channel_num:%d \n " , pwm_gpio , pwm_channel_num ) ;
PWM_DBG ( " pwm_out_io_num[0]:%d,[1]:%d,[2]:%d \n " , pwm_out_io_num [ 0 ] , pwm_out_io_num [ 1 ] , pwm_out_io_num [ 2 ] ) ;
PWM_DBG ( " pwm.period:%d,pwm.duty[0]:%d,[1]:%d,[2]:%d \n " , pwm . period , pwm . duty [ 0 ] , pwm . duty [ 1 ] , pwm . duty [ 2 ] ) ;
LOCK_PWM ( critical ) ; // enter critical
struct pwm_single_param * local_single = pwm_single_toggle [ pwm_toggle ^ 0x01 ] ;
uint8 * local_channel = & pwm_channel_toggle [ pwm_toggle ^ 0x01 ] ;
// step 1: init PWM_CHANNEL+1 channels param
for ( i = 0 ; i < pwm_channel_num ; i + + ) {
uint32 us = pwm . period * pwm . duty [ i ] / PWM_DEPTH ;
local_single [ i ] . h_time = US_TO_RTC_TIMER_TICKS ( us ) ;
PWM_DBG ( " i:%d us:%d ht:%d \n " , i , us , local_single [ i ] . h_time ) ;
local_single [ i ] . gpio_set = 0 ;
local_single [ i ] . gpio_clear = 1 < < pin_num [ pwm_out_io_num [ i ] ] ;
}
local_single [ pwm_channel_num ] . h_time = US_TO_RTC_TIMER_TICKS ( pwm . period ) ;
local_single [ pwm_channel_num ] . gpio_set = pwm_gpio ;
local_single [ pwm_channel_num ] . gpio_clear = 0 ;
PWM_DBG ( " i:%d period:%d ht:%d \n " , pwm_channel_num , pwm . period , local_single [ pwm_channel_num ] . h_time ) ;
// step 2: sort, small to big
pwm_insert_sort ( local_single , pwm_channel_num + 1 ) ;
* local_channel = pwm_channel_num + 1 ;
PWM_DBG ( " 1channel:%d,single[0]:%d,[1]:%d,[2]:%d,[3]:%d \n " , * local_channel , local_single [ 0 ] . h_time , local_single [ 1 ] . h_time , local_single [ 2 ] . h_time , local_single [ 3 ] . h_time ) ;
// step 3: combine same duty channels
for ( i = pwm_channel_num ; i > 0 ; i - - ) {
if ( local_single [ i ] . h_time = = local_single [ i - 1 ] . h_time ) {
local_single [ i - 1 ] . gpio_set | = local_single [ i ] . gpio_set ;
local_single [ i - 1 ] . gpio_clear | = local_single [ i ] . gpio_clear ;
for ( j = i + 1 ; j < * local_channel ; j + + ) {
memcpy ( & local_single [ j - 1 ] , & local_single [ j ] , sizeof ( struct pwm_single_param ) ) ;
}
( * local_channel ) - - ;
}
}
PWM_DBG ( " 2channel:%d,single[0]:%d,[1]:%d,[2]:%d,[3]:%d \n " , * local_channel , local_single [ 0 ] . h_time , local_single [ 1 ] . h_time , local_single [ 2 ] . h_time , local_single [ 3 ] . h_time ) ;
// step 4: cacl delt time
for ( i = * local_channel - 1 ; i > 0 ; i - - ) {
local_single [ i ] . h_time - = local_single [ i - 1 ] . h_time ;
}
// step 5: last channel needs to clean
local_single [ * local_channel - 1 ] . gpio_clear = 0 ;
// step 6: if first channel duty is 0, remove it
if ( local_single [ 0 ] . h_time = = 0 ) {
local_single [ * local_channel - 1 ] . gpio_set & = ~ local_single [ 0 ] . gpio_clear ;
local_single [ * local_channel - 1 ] . gpio_clear | = local_single [ 0 ] . gpio_clear ;
for ( i = 1 ; i < * local_channel ; i + + ) {
memcpy ( & local_single [ i - 1 ] , & local_single [ i ] , sizeof ( struct pwm_single_param ) ) ;
}
( * local_channel ) - - ;
}
// if timer is down, need to set gpio and start timer
if ( pwm_timer_down = = 1 ) {
pwm_channel = local_channel ;
pwm_single = local_single ;
// start
gpio_output_set ( local_single [ 0 ] . gpio_set , local_single [ 0 ] . gpio_clear , pwm_gpio , 0 ) ;
// yeah, if all channels' duty is 0 or 255, don't need to start timer, otherwise start...
if ( * local_channel ! = 1 ) {
pwm_timer_down = 0 ;
RTC_REG_WRITE ( FRC1_LOAD_ADDRESS , local_single [ 0 ] . h_time ) ;
}
}
if ( pwm_toggle = = 1 ) {
pwm_toggle = 0 ;
} else {
pwm_toggle = 1 ;
}
UNLOCK_PWM ( critical ) ; // leave critical
PWM_DBG ( " 3channel:%d,single[0]:%d,[1]:%d,[2]:%d,[3]:%d \n " , * local_channel , local_single [ 0 ] . h_time , local_single [ 1 ] . h_time , local_single [ 2 ] . h_time , local_single [ 3 ] . h_time ) ;
}
/******************************************************************************
* FunctionName : pwm_set_duty
* Description : set each channel ' s duty params
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* Parameters : int16_t duty : 0 ~ PWM_DEPTH
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* uint8 channel : channel index
* Returns : NONE
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void ICACHE_FLASH_ATTR
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pwm_set_duty ( int16_t duty , uint8 channel )
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{
uint8 i ;
for ( i = 0 ; i < pwm_channel_num ; i + + ) {
if ( pwm_out_io_num [ i ] = = channel ) {
channel = i ;
break ;
}
}
if ( i = = pwm_channel_num ) // non found
return ;
LOCK_PWM ( critical ) ; // enter critical
if ( duty < 1 ) {
pwm . duty [ channel ] = 0 ;
} else if ( duty > = PWM_DEPTH ) {
pwm . duty [ channel ] = PWM_DEPTH ;
} else {
pwm . duty [ channel ] = duty ;
}
UNLOCK_PWM ( critical ) ; // leave critical
}
/******************************************************************************
* FunctionName : pwm_set_freq
* Description : set pwm frequency
* Parameters : uint16 freq : 100 hz typically
* Returns : NONE
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void ICACHE_FLASH_ATTR
pwm_set_freq ( uint16 freq , uint8 channel )
{
LOCK_PWM ( critical ) ; // enter critical
if ( freq > PWM_FREQ_MAX ) {
pwm . freq = PWM_FREQ_MAX ;
} else if ( freq < 1 ) {
pwm . freq = 1 ;
} else {
pwm . freq = freq ;
}
pwm . period = PWM_1S / pwm . freq ;
UNLOCK_PWM ( critical ) ; // leave critical
}
/******************************************************************************
* FunctionName : pwm_get_duty
* Description : get duty of each channel
* Parameters : uint8 channel : channel index
* Returns : NONE
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
uint16 ICACHE_FLASH_ATTR
pwm_get_duty ( uint8 channel )
{
uint8 i ;
for ( i = 0 ; i < pwm_channel_num ; i + + ) {
if ( pwm_out_io_num [ i ] = = channel ) {
channel = i ;
break ;
}
}
if ( i = = pwm_channel_num ) // non found
return 0 ;
return pwm . duty [ channel ] ;
}
/******************************************************************************
* FunctionName : pwm_get_freq
* Description : get pwm frequency
* Parameters : NONE
* Returns : uint16 : pwm frequency
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
uint16 ICACHE_FLASH_ATTR
pwm_get_freq ( uint8 channel )
{
return pwm . freq ;
}
/******************************************************************************
* FunctionName : pwm_period_timer
* Description : pwm period timer function , output high level ,
* start each channel ' s high level timer
* Parameters : NONE
* Returns : NONE
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
STATIC void ICACHE_RAM_ATTR
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pwm_tim1_intr_handler ( void * dummy )
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{
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( void ) dummy ;
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uint8 local_toggle = pwm_toggle ; // pwm_toggle may change outside
RTC_CLR_REG_MASK ( FRC1_INT_ADDRESS , FRC1_INT_CLR_MASK ) ;
if ( pwm_current_channel > = ( * pwm_channel - 1 ) ) { // *pwm_channel may change outside
pwm_single = pwm_single_toggle [ local_toggle ] ;
pwm_channel = & pwm_channel_toggle [ local_toggle ] ;
gpio_output_set ( pwm_single [ * pwm_channel - 1 ] . gpio_set ,
pwm_single [ * pwm_channel - 1 ] . gpio_clear ,
pwm_gpio ,
0 ) ;
pwm_current_channel = 0 ;
if ( * pwm_channel ! = 1 ) {
RTC_REG_WRITE ( FRC1_LOAD_ADDRESS , pwm_single [ pwm_current_channel ] . h_time ) ;
} else {
pwm_timer_down = 1 ;
}
} else {
gpio_output_set ( pwm_single [ pwm_current_channel ] . gpio_set ,
pwm_single [ pwm_current_channel ] . gpio_clear ,
pwm_gpio , 0 ) ;
pwm_current_channel + + ;
RTC_REG_WRITE ( FRC1_LOAD_ADDRESS , pwm_single [ pwm_current_channel ] . h_time ) ;
}
}
/******************************************************************************
* FunctionName : pwm_init
* Description : pwm gpio , params and timer initialization
* Parameters : uint16 freq : pwm freq param
* uint16 * duty : each channel ' s duty
* Returns : NONE
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
void ICACHE_FLASH_ATTR
pwm_init ( void )
{
uint8 i ;
RTC_REG_WRITE ( FRC1_CTRL_ADDRESS , //FRC2_AUTO_RELOAD|
DIVDED_BY_16
| FRC1_ENABLE_TIMER
| TM_EDGE_INT ) ;
RTC_REG_WRITE ( FRC1_LOAD_ADDRESS , 0 ) ;
for ( i = 0 ; i < PWM_CHANNEL ; i + + ) {
pwm_gpio = 0 ;
pwm . duty [ i ] = 0 ;
}
pwm_set_freq ( 500 , 0 ) ;
pwm_start ( ) ;
ETS_FRC_TIMER1_INTR_ATTACH ( pwm_tim1_intr_handler , NULL ) ;
TM1_EDGE_INT_ENABLE ( ) ;
ETS_FRC1_INTR_ENABLE ( ) ;
}
int ICACHE_FLASH_ATTR
pwm_add ( uint8_t pin_id , uint32_t pin_mux , uint32_t pin_func ) {
PWM_DBG ( " --Function pwm_add() is called. channel:%d \n " , channel ) ;
PWM_DBG ( " pwm_gpio:%x,pwm_channel_num:%d \n " , pwm_gpio , pwm_channel_num ) ;
PWM_DBG ( " pwm_out_io_num[0]:%d,[1]:%d,[2]:%d \n " , pwm_out_io_num [ 0 ] , pwm_out_io_num [ 1 ] , pwm_out_io_num [ 2 ] ) ;
PWM_DBG ( " pwm.duty[0]:%d,[1]:%d,[2]:%d \n " , pwm . duty [ 0 ] , pwm . duty [ 1 ] , pwm . duty [ 2 ] ) ;
int channel = - 1 ;
for ( int i = 0 ; i < PWM_CHANNEL ; + + i ) {
if ( pin_num [ i ] = = pin_id ) {
channel = i ;
break ;
}
}
if ( channel = = - 1 ) {
return - 1 ;
}
uint8 i ;
for ( i = 0 ; i < PWM_CHANNEL ; i + + ) {
if ( pwm_out_io_num [ i ] = = channel ) // already exist
return channel ;
if ( pwm_out_io_num [ i ] = = - 1 ) { // empty exist
LOCK_PWM ( critical ) ; // enter critical
pwm_out_io_num [ i ] = channel ;
pwm . duty [ i ] = 0 ;
pwm_gpio | = ( 1 < < pin_num [ channel ] ) ;
PIN_FUNC_SELECT ( pin_mux , pin_func ) ;
GPIO_REG_WRITE ( GPIO_PIN_ADDR ( GPIO_ID_PIN ( pin_num [ channel ] ) ) , GPIO_REG_READ ( GPIO_PIN_ADDR ( GPIO_ID_PIN ( pin_num [ channel ] ) ) ) & ( ~ GPIO_PIN_PAD_DRIVER_SET ( GPIO_PAD_DRIVER_ENABLE ) ) ) ; //disable open drain;
pwm_channel_num + + ;
UNLOCK_PWM ( critical ) ; // leave critical
return channel ;
}
}
return - 1 ;
}
bool ICACHE_FLASH_ATTR
pwm_delete ( uint8 channel ) {
PWM_DBG ( " --Function pwm_delete() is called. channel:%d \n " , channel ) ;
PWM_DBG ( " pwm_gpio:%x,pwm_channel_num:%d \n " , pwm_gpio , pwm_channel_num ) ;
PWM_DBG ( " pwm_out_io_num[0]:%d,[1]:%d,[2]:%d \n " , pwm_out_io_num [ 0 ] , pwm_out_io_num [ 1 ] , pwm_out_io_num [ 2 ] ) ;
PWM_DBG ( " pwm.duty[0]:%d,[1]:%d,[2]:%d \n " , pwm . duty [ 0 ] , pwm . duty [ 1 ] , pwm . duty [ 2 ] ) ;
uint8 i , j ;
for ( i = 0 ; i < pwm_channel_num ; i + + ) {
if ( pwm_out_io_num [ i ] = = channel ) { // exist
LOCK_PWM ( critical ) ; // enter critical
pwm_out_io_num [ i ] = - 1 ;
pwm_gpio & = ~ ( 1 < < pin_num [ channel ] ) ; //clear the bit
for ( j = i ; j < pwm_channel_num - 1 ; j + + ) {
pwm_out_io_num [ j ] = pwm_out_io_num [ j + 1 ] ;
pwm . duty [ j ] = pwm . duty [ j + 1 ] ;
}
pwm_out_io_num [ pwm_channel_num - 1 ] = - 1 ;
pwm . duty [ pwm_channel_num - 1 ] = 0 ;
pwm_channel_num - - ;
UNLOCK_PWM ( critical ) ; // leave critical
return true ;
}
}
// non found
return true ;
}