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/* **************************************************************************
Marlin 3 D Printer Firmware
Copyright ( C ) 2016 MarlinFirmware [ https : //github.com/MarlinFirmware/Marlin]
Copyright ( c ) 2016 Bob Cousins bobcousins42 @ googlemail . com
This program is free software : you can redistribute it and / or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation , either version 3 of the License , or
( at your option ) any later version .
This program is distributed in the hope that it will be useful ,
but WITHOUT ANY WARRANTY ; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the
GNU General Public License for more details .
You should have received a copy of the GNU General Public License
along with this program . If not , see < http : //www.gnu.org/licenses/>.
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
/**
* Description : HAL for AVR
*
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* For __AVR__
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*/
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# ifndef _HAL_AVR_H_
# define _HAL_AVR_H_
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// --------------------------------------------------------------------------
// Includes
// --------------------------------------------------------------------------
# include <stdint.h>
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# include <Arduino.h>
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# include <util/delay.h>
# include <avr/eeprom.h>
# include <avr/pgmspace.h>
# include <avr/interrupt.h>
# include <avr/io.h>
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# include "../HAL_SPI.h"
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# include "fastio_AVR.h"
# include "watchdog_AVR.h"
# include "math_AVR.h"
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# ifdef USBCON
# include "HardwareSerial.h"
# else
# include "MarlinSerial.h"
# endif
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// --------------------------------------------------------------------------
// Defines
// --------------------------------------------------------------------------
//#define analogInputToDigitalPin(IO) IO
# ifndef CRITICAL_SECTION_START
# define CRITICAL_SECTION_START unsigned char _sreg = SREG; cli();
# define CRITICAL_SECTION_END SREG = _sreg;
# endif
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# define ISRS_ENABLED() TEST(SREG, SREG_I)
# define ENABLE_ISRS() sei()
# define DISABLE_ISRS() cli()
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// On AVR this is in math.h?
//#define square(x) ((x)*(x))
// --------------------------------------------------------------------------
// Types
// --------------------------------------------------------------------------
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typedef uint16_t hal_timer_t ;
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# define HAL_TIMER_TYPE_MAX 0xFFFF
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typedef int8_t pin_t ;
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# define HAL_SERVO_LIB Servo
// --------------------------------------------------------------------------
// Public Variables
// --------------------------------------------------------------------------
//extern uint8_t MCUSR;
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# define NUM_SERIAL 1
# ifdef USBCON
# if ENABLED(BLUETOOTH)
# define MYSERIAL0 bluetoothSerial
# else
# define MYSERIAL0 Serial
# endif
# else
# define MYSERIAL0 customizedSerial
# endif
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// --------------------------------------------------------------------------
// Public functions
// --------------------------------------------------------------------------
//void cli(void);
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//void _delay_ms(const int delay);
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inline void HAL_clear_reset_source ( void ) { MCUSR = 0 ; }
inline uint8_t HAL_get_reset_source ( void ) { return MCUSR ; }
extern " C " {
int freeMemory ( void ) ;
}
// eeprom
//void eeprom_write_byte(unsigned char *pos, unsigned char value);
//unsigned char eeprom_read_byte(unsigned char *pos);
// timers
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# define HAL_TIMER_RATE ((F_CPU) / 8) // i.e., 2MHz or 2.5MHz
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# define STEP_TIMER_NUM 1
# define TEMP_TIMER_NUM 0
# define PULSE_TIMER_NUM TEMP_TIMER_NUM
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# define HAL_STEPPER_TIMER_RATE HAL_TIMER_RATE
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# define HAL_TICKS_PER_US ((HAL_STEPPER_TIMER_RATE) / 1000000) // Cannot be of type double
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# define STEPPER_TIMER_PRESCALE 8
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# define STEP_TIMER_MIN_INTERVAL 8 // minimum time in µs between stepper interrupts
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# define TEMP_TIMER_FREQUENCY ((F_CPU) / 64.0 / 256.0)
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# define TIMER_OCR_1 OCR1A
# define TIMER_COUNTER_1 TCNT1
# define TIMER_OCR_0 OCR0A
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# define TIMER_COUNTER_0 TCNT0
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# define PULSE_TIMER_PRESCALE 8
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# define ENABLE_STEPPER_DRIVER_INTERRUPT() SBI(TIMSK1, OCIE1A)
# define DISABLE_STEPPER_DRIVER_INTERRUPT() CBI(TIMSK1, OCIE1A)
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# define STEPPER_ISR_ENABLED() TEST(TIMSK1, OCIE1A)
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# define ENABLE_TEMPERATURE_INTERRUPT() SBI(TIMSK0, OCIE0B)
# define DISABLE_TEMPERATURE_INTERRUPT() CBI(TIMSK0, OCIE0B)
# define TEMPERATURE_ISR_ENABLED() TEST(TIMSK0, OCIE0B)
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# define HAL_timer_start(timer_num, frequency)
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# define _CAT(a, ...) a ## __VA_ARGS__
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# define HAL_timer_set_compare(timer, compare) (_CAT(TIMER_OCR_, timer) = compare)
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# define HAL_timer_restrain(timer, interval_ticks) NOLESS(_CAT(TIMER_OCR_, timer), _CAT(TIMER_COUNTER_, timer) + interval_ticks)
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# define HAL_timer_get_compare(timer) _CAT(TIMER_OCR_, timer)
# define HAL_timer_get_count(timer) _CAT(TIMER_COUNTER_, timer)
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/**
* On AVR there is no hardware prioritization and preemption of
* interrupts , so this emulates it . The UART has first priority
* ( otherwise , characters will be lost due to UART overflow ) .
* Then : Stepper , Endstops , Temperature , and - finally - all others .
*/
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# define HAL_timer_isr_prologue(TIMER_NUM)
# define HAL_timer_isr_epilogue(TIMER_NUM)
/* 18 cycles maximum latency */
# define HAL_STEP_TIMER_ISR \
extern " C " void TIMER1_COMPA_vect ( void ) __attribute__ ( ( signal , naked , used , externally_visible ) ) ; \
extern " C " void TIMER1_COMPA_vect_bottom ( void ) asm ( " TIMER1_COMPA_vect_bottom " ) __attribute__ ( ( used , externally_visible , noinline ) ) ; \
void TIMER1_COMPA_vect ( void ) { \
__asm__ __volatile__ ( \
A ( " push r16 " ) /* 2 Save R16 */ \
A ( " in r16, __SREG__ " ) /* 1 Get SREG */ \
A ( " push r16 " ) /* 2 Save SREG into stack */ \
A ( " lds r16, %[timsk0] " ) /* 2 Load into R0 the Temperature timer Interrupt mask register */ \
A ( " push r16 " ) /* 2 Save TIMSK0 into the stack */ \
A ( " andi r16,~%[msk0] " ) /* 1 Disable the temperature ISR */ \
A ( " sts %[timsk0], r16 " ) /* 2 And set the new value */ \
A ( " lds r16, %[timsk1] " ) /* 2 Load into R0 the stepper timer Interrupt mask register [TIMSK1] */ \
A ( " andi r16,~%[msk1] " ) /* 1 Disable the stepper ISR */ \
A ( " sts %[timsk1], r16 " ) /* 2 And set the new value */ \
A ( " push r16 " ) /* 2 Save TIMSK1 into stack */ \
A ( " in r16, 0x3B " ) /* 1 Get RAMPZ register */ \
A ( " push r16 " ) /* 2 Save RAMPZ into stack */ \
A ( " in r16, 0x3C " ) /* 1 Get EIND register */ \
A ( " push r0 " ) /* C runtime can modify all the following registers without restoring them */ \
A ( " push r1 " ) \
A ( " push r18 " ) \
A ( " push r19 " ) \
A ( " push r20 " ) \
A ( " push r21 " ) \
A ( " push r22 " ) \
A ( " push r23 " ) \
A ( " push r24 " ) \
A ( " push r25 " ) \
A ( " push r26 " ) \
A ( " push r27 " ) \
A ( " push r30 " ) \
A ( " push r31 " ) \
A ( " clr r1 " ) /* C runtime expects this register to be 0 */ \
A ( " call TIMER1_COMPA_vect_bottom " ) /* Call the bottom handler - No inlining allowed, otherwise registers used are not saved */ \
A ( " pop r31 " ) \
A ( " pop r30 " ) \
A ( " pop r27 " ) \
A ( " pop r26 " ) \
A ( " pop r25 " ) \
A ( " pop r24 " ) \
A ( " pop r23 " ) \
A ( " pop r22 " ) \
A ( " pop r21 " ) \
A ( " pop r20 " ) \
A ( " pop r19 " ) \
A ( " pop r18 " ) \
A ( " pop r1 " ) \
A ( " pop r0 " ) \
A ( " out 0x3C, r16 " ) /* 1 Restore EIND register */ \
A ( " pop r16 " ) /* 2 Get the original RAMPZ register value */ \
A ( " out 0x3B, r16 " ) /* 1 Restore RAMPZ register to its original value */ \
A ( " pop r16 " ) /* 2 Get the original TIMSK1 value but with stepper ISR disabled */ \
A ( " ori r16,%[msk1] " ) /* 1 Reenable the stepper ISR */ \
A ( " cli " ) /* 1 Disable global interrupts - Reenabling Stepper ISR can reenter amd temperature can reenter, and we want that, if it happens, after this ISR has ended */ \
A ( " sts %[timsk1], r16 " ) /* 2 And restore the old value - This reenables the stepper ISR */ \
A ( " pop r16 " ) /* 2 Get the temperature timer Interrupt mask register [TIMSK0] */ \
A ( " sts %[timsk0], r16 " ) /* 2 And restore the old value - This reenables the temperature ISR */ \
A ( " pop r16 " ) /* 2 Get the old SREG value */ \
A ( " out __SREG__, r16 " ) /* 1 And restore the SREG value */ \
A ( " pop r16 " ) /* 2 Restore R16 value */ \
A ( " reti " ) /* 4 Return from interrupt */ \
: \
: [ timsk0 ] " i " ( ( uint16_t ) & TIMSK0 ) , \
[ timsk1 ] " i " ( ( uint16_t ) & TIMSK1 ) , \
[ msk0 ] " M " ( ( uint8_t ) ( 1 < < OCIE0B ) ) , \
[ msk1 ] " M " ( ( uint8_t ) ( 1 < < OCIE1A ) ) \
: \
) ; \
} \
void TIMER1_COMPA_vect_bottom ( void )
/* 14 cycles maximum latency */
# define HAL_TEMP_TIMER_ISR \
extern " C " void TIMER0_COMPB_vect ( void ) __attribute__ ( ( signal , naked , used , externally_visible ) ) ; \
extern " C " void TIMER0_COMPB_vect_bottom ( void ) asm ( " TIMER0_COMPB_vect_bottom " ) __attribute__ ( ( used , externally_visible , noinline ) ) ; \
void TIMER0_COMPB_vect ( void ) { \
__asm__ __volatile__ ( \
A ( " push r16 " ) /* 2 Save R16 */ \
A ( " in r16, __SREG__ " ) /* 1 Get SREG */ \
A ( " push r16 " ) /* 2 Save SREG into stack */ \
A ( " lds r16, %[timsk0] " ) /* 2 Load into R0 the Temperature timer Interrupt mask register */ \
A ( " andi r16,~%[msk0] " ) /* 1 Disable the temperature ISR */ \
A ( " sts %[timsk0], r16 " ) /* 2 And set the new value */ \
A ( " sei " ) /* 1 Enable global interrupts - It is safe, as the temperature ISR is disabled, so we cannot reenter it */ \
A ( " push r16 " ) /* 2 Save TIMSK0 into stack */ \
A ( " in r16, 0x3B " ) /* 1 Get RAMPZ register */ \
A ( " push r16 " ) /* 2 Save RAMPZ into stack */ \
A ( " in r16, 0x3C " ) /* 1 Get EIND register */ \
A ( " push r0 " ) /* C runtime can modify all the following registers without restoring them */ \
A ( " push r1 " ) \
A ( " push r18 " ) \
A ( " push r19 " ) \
A ( " push r20 " ) \
A ( " push r21 " ) \
A ( " push r22 " ) \
A ( " push r23 " ) \
A ( " push r24 " ) \
A ( " push r25 " ) \
A ( " push r26 " ) \
A ( " push r27 " ) \
A ( " push r30 " ) \
A ( " push r31 " ) \
A ( " clr r1 " ) /* C runtime expects this register to be 0 */ \
A ( " call TIMER0_COMPB_vect_bottom " ) /* Call the bottom handler - No inlining allowed, otherwise registers used are not saved */ \
A ( " pop r31 " ) \
A ( " pop r30 " ) \
A ( " pop r27 " ) \
A ( " pop r26 " ) \
A ( " pop r25 " ) \
A ( " pop r24 " ) \
A ( " pop r23 " ) \
A ( " pop r22 " ) \
A ( " pop r21 " ) \
A ( " pop r20 " ) \
A ( " pop r19 " ) \
A ( " pop r18 " ) \
A ( " pop r1 " ) \
A ( " pop r0 " ) \
A ( " out 0x3C, r16 " ) /* 1 Restore EIND register */ \
A ( " pop r16 " ) /* 2 Get the original RAMPZ register value */ \
A ( " out 0x3B, r16 " ) /* 1 Restore RAMPZ register to its original value */ \
A ( " pop r16 " ) /* 2 Get the original TIMSK0 value but with temperature ISR disabled */ \
A ( " ori r16,%[msk0] " ) /* 1 Enable temperature ISR */ \
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A ( " cli " ) /* 1 Disable global interrupts - We must do this, as we will reenable the temperature ISR, and we don't want to reenter this handler until the current one is done */ \
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A ( " sts %[timsk0], r16 " ) /* 2 And restore the old value */ \
A ( " pop r16 " ) /* 2 Get the old SREG */ \
A ( " out __SREG__, r16 " ) /* 1 And restore the SREG value */ \
A ( " pop r16 " ) /* 2 Restore R16 */ \
A ( " reti " ) /* 4 Return from interrupt */ \
: \
: [ timsk0 ] " i " ( ( uint16_t ) & TIMSK0 ) , \
[ msk0 ] " M " ( ( uint8_t ) ( 1 < < OCIE0B ) ) \
: \
) ; \
} \
void TIMER0_COMPB_vect_bottom ( void )
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// ADC
# ifdef DIDR2
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# define HAL_ANALOG_SELECT(pin) do{ if (pin < 8) SBI(DIDR0, pin); else SBI(DIDR2, pin & 0x07); }while(0)
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# else
# define HAL_ANALOG_SELECT(pin) do{ SBI(DIDR0, pin); }while(0)
# endif
inline void HAL_adc_init ( void ) {
ADCSRA = _BV ( ADEN ) | _BV ( ADSC ) | _BV ( ADIF ) | 0x07 ;
DIDR0 = 0 ;
# ifdef DIDR2
DIDR2 = 0 ;
# endif
}
# define SET_ADMUX_ADCSRA(pin) ADMUX = _BV(REFS0) | (pin & 0x07); SBI(ADCSRA, ADSC)
# ifdef MUX5
# define HAL_START_ADC(pin) if (pin > 7) ADCSRB = _BV(MUX5); else ADCSRB = 0; SET_ADMUX_ADCSRA(pin)
# else
# define HAL_START_ADC(pin) ADCSRB = 0; SET_ADMUX_ADCSRA(pin)
# endif
# define HAL_READ_ADC ADC
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# define GET_PIN_MAP_PIN(index) index
# define GET_PIN_MAP_INDEX(pin) pin
# define PARSED_PIN_INDEX(code, dval) parser.intval(code, dval)
# define HAL_SENSITIVE_PINS 0, 1
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# endif // _HAL_AVR_H_