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✨ SAMD21 HAL / Minitronics v2.0 (MarlinFirmware#24976)
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brupje authored and thinkyhead committed Dec 16, 2022
1 parent ec6349f commit ac05f0c
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2 changes: 1 addition & 1 deletion Marlin/Configuration.h
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//
// ReprapWorld Graphical LCD
// https://reprapworld.com/?products_details&products_id/1218
// https://reprapworld.com/electronics/3d-printer-modules/autonomous-printing/graphical-lcd-screen-v1-0/
//
//#define REPRAPWORLD_GRAPHICAL_LCD

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2 changes: 1 addition & 1 deletion Marlin/src/HAL/NATIVE_SIM/u8g/u8g_com_st7920_sw_spi.cpp
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Expand Up @@ -168,4 +168,4 @@ uint8_t u8g_com_ST7920_sw_spi_fn(u8g_t *u8g, uint8_t msg, uint8_t arg_val, void
#endif

#endif // IS_U8GLIB_ST7920
#endif // TARGET_LPC1768
#endif // __PLAT_NATIVE_SIM__
212 changes: 212 additions & 0 deletions Marlin/src/HAL/SAMD21/HAL.cpp
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/**
* Marlin 3D Printer Firmware
* Copyright (c) 2022 MarlinFirmware [https://github.com/MarlinFirmware/Marlin]
*
* Based on Sprinter and grbl.
* Copyright (c) 2011 Camiel Gubbels / Erik van der Zalm
*
* 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 <https://www.gnu.org/licenses/>.
*
*/

/**
* SAMD21 HAL developed by Bart Meijer (brupje)
* Based on SAMD51 HAL by Giuliano Zaro (AKA GMagician)
*/
#ifdef __SAMD21__

#include "../../inc/MarlinConfig.h"

#include <wiring_private.h>

#if USING_HW_SERIALUSB
DefaultSerial1 MSerialUSB(false, SerialUSB);
#endif
#if USING_HW_SERIAL0
DefaultSerial2 MSerial1(false, Serial1);
#endif
#if USING_HW_SERIAL1
DefaultSerial3 MSerial2(false, Serial2);
#endif



#define WDT_CONFIG_PER_7_Val 0x9u
#define WDT_CONFIG_PER_Pos 0
#define WDT_CONFIG_PER_7 (WDT_CONFIG_PER_7_Val << WDT_CONFIG_PER_Pos)

#if ENABLED(USE_WATCHDOG)

#define WDT_TIMEOUT_REG TERN(WATCHDOG_DURATION_8S, WDT_CONFIG_PER_CYC8192, WDT_CONFIG_PER_CYC4096) // 4 or 8 second timeout

void MarlinHAL::watchdog_init() {
// Set up the generic clock (GCLK2) used to clock the watchdog timer at 1.024kHz
GCLK->GENDIV.reg = GCLK_GENDIV_DIV(4) | // Divide the 32.768kHz clock source by divisor 32, where 2^(4 + 1): 32.768kHz/32=1.024kHz
GCLK_GENDIV_ID(2); // Select Generic Clock (GCLK) 2
while (GCLK->STATUS.bit.SYNCBUSY); // Wait for synchronization

REG_GCLK_GENCTRL = GCLK_GENCTRL_DIVSEL | // Set to divide by 2^(GCLK_GENDIV_DIV(4) + 1)
GCLK_GENCTRL_IDC | // Set the duty cycle to 50/50 HIGH/LOW
GCLK_GENCTRL_GENEN | // Enable GCLK2
GCLK_GENCTRL_SRC_OSCULP32K | // Set the clock source to the ultra low power oscillator (OSCULP32K)
GCLK_GENCTRL_ID(2); // Select GCLK2
while (GCLK->STATUS.bit.SYNCBUSY); // Wait for synchronization

// Feed GCLK2 to WDT (Watchdog Timer)
REG_GCLK_CLKCTRL = GCLK_CLKCTRL_CLKEN | // Enable GCLK2 to the WDT
GCLK_CLKCTRL_GEN_GCLK2 | // Select GCLK2
GCLK_CLKCTRL_ID_WDT; // Feed the GCLK2 to the WDT
while (GCLK->STATUS.bit.SYNCBUSY); // Wait for synchronization

WDT->CONFIG.bit.PER = WDT_CONFIG_PER_7; // Set the WDT reset timeout to 4 seconds
while (WDT->STATUS.bit.SYNCBUSY); // Wait for synchronization
REG_WDT_CTRL = WDT_CTRL_ENABLE; // Enable the WDT in normal mode
while (WDT->STATUS.bit.SYNCBUSY); // Wait for synchronization
}

// Reset watchdog. MUST be called at least every 4 seconds after the
// first watchdog_init or SAMD will go into emergency procedures.
void MarlinHAL::watchdog_refresh() {
WDT->CLEAR.reg = WDT_CLEAR_CLEAR_KEY;
while (WDT->STATUS.bit.SYNCBUSY);
}

#endif

// ------------------------
// Types
// ------------------------

// ------------------------
// Private Variables
// ------------------------

// ------------------------
// Private functions
// ------------------------

void MarlinHAL::dma_init() {}

// ------------------------
// Public functions
// ------------------------

// HAL initialization task
void MarlinHAL::init() {
TERN_(DMA_IS_REQUIRED, dma_init());
#if ENABLED(SDSUPPORT)
#if HAS_SD_DETECT && SD_CONNECTION_IS(ONBOARD)
SET_INPUT_PULLUP(SD_DETECT_PIN);
#endif
OUT_WRITE(SDSS, HIGH); // Try to set SDSS inactive before any other SPI users start up
#endif
}

#pragma push_macro("WDT")
#undef WDT // Required to be able to use '.bit.WDT'. Compiler wrongly replace struct field with WDT define
uint8_t MarlinHAL::get_reset_source() {

return 0;
}
#pragma pop_macro("WDT")

void MarlinHAL::reboot() { NVIC_SystemReset(); }

extern "C" {
void * _sbrk(int incr);
extern unsigned int __bss_end__; // end of bss section
}

// Return free memory between end of heap (or end bss) and whatever is current
int freeMemory() {
int free_memory, heap_end = (int)_sbrk(0);
return (int)&free_memory - (heap_end ?: (int)&__bss_end__);
}

// ------------------------
// ADC
// ------------------------

uint16_t MarlinHAL::adc_result;

void MarlinHAL::adc_init() {
/* thanks to https://www.eevblog.com/forum/microcontrollers/samd21g18-adc-with-resrdy-interrupts-only-reads-once-or-twice/ */

ADC->CTRLA.bit.ENABLE = false;
while(ADC->STATUS.bit.SYNCBUSY);

// load chip corrections
uint32_t bias = (*((uint32_t *) ADC_FUSES_BIASCAL_ADDR) & ADC_FUSES_BIASCAL_Msk) >> ADC_FUSES_BIASCAL_Pos;
uint32_t linearity = (*((uint32_t *) ADC_FUSES_LINEARITY_0_ADDR) & ADC_FUSES_LINEARITY_0_Msk) >> ADC_FUSES_LINEARITY_0_Pos;
linearity |= ((*((uint32_t *) ADC_FUSES_LINEARITY_1_ADDR) & ADC_FUSES_LINEARITY_1_Msk) >> ADC_FUSES_LINEARITY_1_Pos) << 5;

/* Wait for bus synchronization. */
while (ADC->STATUS.bit.SYNCBUSY) {};

ADC->CALIB.reg = ADC_CALIB_BIAS_CAL(bias) | ADC_CALIB_LINEARITY_CAL(linearity);

/* Wait for bus synchronization. */
while (ADC->STATUS.bit.SYNCBUSY) {};

ADC->CTRLA.bit.SWRST = true;
while(ADC->STATUS.bit.SYNCBUSY);

ADC->REFCTRL.reg = ADC_REFCTRL_REFSEL_INTVCC1;
ADC->AVGCTRL.reg = ADC_AVGCTRL_SAMPLENUM_32| ADC_AVGCTRL_ADJRES(4);;


ADC->CTRLB.reg = ADC_CTRLB_PRESCALER_DIV128 |
ADC_CTRLB_RESSEL_16BIT |
ADC_CTRLB_FREERUN;
while(ADC->STATUS.bit.SYNCBUSY);

ADC->SAMPCTRL.bit.SAMPLEN = 0x00;
while(ADC->STATUS.bit.SYNCBUSY);

ADC->INPUTCTRL.reg = ADC_INPUTCTRL_INPUTSCAN(HAL_ADC_AIN_LEN) // scan (INPUTSCAN + NUM_EXTUDERS - 1) pins
| ADC_INPUTCTRL_GAIN_DIV2 |ADC_INPUTCTRL_MUXNEG_GND| HAL_ADC_AIN_START ; /* set to first AIN */

while(ADC->STATUS.bit.SYNCBUSY);

ADC->INTENSET.reg |= ADC_INTENSET_RESRDY; // enable Result Ready ADC interrupts
while (ADC->STATUS.bit.SYNCBUSY);

NVIC_EnableIRQ(ADC_IRQn); // enable ADC interrupts

NVIC_SetPriority(ADC_IRQn, 3);

ADC->CTRLA.bit.ENABLE = true;
}

volatile uint32_t adc_results[HAL_ADC_AIN_NUM_SENSORS];

void ADC_Handler() {
while(ADC->STATUS.bit.SYNCBUSY == 1);
int pos = ADC->INPUTCTRL.bit.INPUTOFFSET;

adc_results[pos] = ADC->RESULT.reg; /* Read the value. */
ADC->INTFLAG.reg = ADC_INTENSET_RESRDY; /* Clear the data ready flag. */
}

void MarlinHAL::adc_start(const pin_t pin) {
/* due to the way INPUTOFFSET works, the last sensor is the first position in the array
and we want the ADC_handler interrupt to be as simple possible, so we do the calculation here.
*/
unsigned int pos = PIN_TO_INPUTCTRL(pin) - HAL_ADC_AIN_START + 1;
if (pos == HAL_ADC_AIN_NUM_SENSORS) pos = 0;
adc_result = adc_results[pos]; // 16-bit resolution
//adc_result = 0xFFFF;
}

#endif // __SAMD21__
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