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settings.c
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settings.c
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/*
settings.c - eeprom configuration handling
Part of Grbl
Copyright (c) 2009-2011 Simen Svale Skogsrud
Copyright (c) 2011-2012 Sungeun K. Jeon
Grbl 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.
Grbl 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 Grbl. If not, see <http://www.gnu.org/licenses/>.
*/
#include <avr/io.h>
#include "protocol.h"
#include "report.h"
#include "stepper.h"
#include "nuts_bolts.h"
#include "settings.h"
#include "eeprom.h"
#include "limits.h"
settings_t settings;
// Version 4 outdated settings record
typedef struct {
float steps_per_mm[3];
uint8_t microsteps;
uint8_t pulse_microseconds;
float default_feed_rate;
float default_seek_rate;
uint8_t invert_mask;
float mm_per_arc_segment;
float acceleration;
float junction_deviation;
} settings_v4_t;
// Method to store startup lines into EEPROM
void settings_store_startup_line(uint8_t n, char *line)
{
uint16_t addr = n*(LINE_BUFFER_SIZE+1)+EEPROM_ADDR_STARTUP_BLOCK;
memcpy_to_eeprom_with_checksum(addr,(char*)line, LINE_BUFFER_SIZE);
}
// Method to store coord data parameters into EEPROM
void settings_write_coord_data(uint8_t coord_select, float *coord_data)
{
uint16_t addr = coord_select*(sizeof(float)*N_AXIS+1) + EEPROM_ADDR_PARAMETERS;
memcpy_to_eeprom_with_checksum(addr,(char*)coord_data, sizeof(float)*N_AXIS);
}
// Method to store Grbl global settings struct and version number into EEPROM
void write_global_settings()
{
eeprom_put_char(0, SETTINGS_VERSION);
memcpy_to_eeprom_with_checksum(EEPROM_ADDR_GLOBAL, (char*)&settings, sizeof(settings_t));
}
// Method to reset Grbl global settings back to defaults.
void settings_reset(bool reset_all) {
// Reset all settings or only the migration settings to the new version.
if (reset_all) {
settings.steps_per_mm[X_AXIS] = DEFAULT_X_STEPS_PER_MM;
settings.steps_per_mm[Y_AXIS] = DEFAULT_Y_STEPS_PER_MM;
settings.steps_per_mm[Z_AXIS] = DEFAULT_Z_STEPS_PER_MM;
settings.pulse_microseconds = DEFAULT_STEP_PULSE_MICROSECONDS;
settings.default_feed_rate = DEFAULT_FEEDRATE;
settings.default_seek_rate = DEFAULT_RAPID_FEEDRATE;
settings.acceleration = DEFAULT_ACCELERATION;
settings.mm_per_arc_segment = DEFAULT_MM_PER_ARC_SEGMENT;
settings.invert_mask = DEFAULT_STEPPING_INVERT_MASK;
settings.junction_deviation = DEFAULT_JUNCTION_DEVIATION;
}
// New settings since last version
settings.flags = 0;
if (DEFAULT_REPORT_INCHES) { settings.flags |= BITFLAG_REPORT_INCHES; }
if (DEFAULT_AUTO_START) { settings.flags |= BITFLAG_AUTO_START; }
if (DEFAULT_INVERT_ST_ENABLE) { settings.flags |= BITFLAG_INVERT_ST_ENABLE; }
if (DEFAULT_HARD_LIMIT_ENABLE) { settings.flags |= BITFLAG_HARD_LIMIT_ENABLE; }
if (DEFAULT_HOMING_ENABLE) { settings.flags |= BITFLAG_HOMING_ENABLE; }
settings.homing_dir_mask = DEFAULT_HOMING_DIR_MASK;
settings.homing_feed_rate = DEFAULT_HOMING_FEEDRATE;
settings.homing_seek_rate = DEFAULT_HOMING_RAPID_FEEDRATE;
settings.homing_debounce_delay = DEFAULT_HOMING_DEBOUNCE_DELAY;
settings.homing_pulloff = DEFAULT_HOMING_PULLOFF;
settings.stepper_idle_lock_time = DEFAULT_STEPPER_IDLE_LOCK_TIME;
settings.decimal_places = DEFAULT_DECIMAL_PLACES;
settings.n_arc_correction = DEFAULT_N_ARC_CORRECTION;
write_global_settings();
}
// Reads startup line from EEPROM. Updated pointed line string data.
uint8_t settings_read_startup_line(uint8_t n, char *line)
{
uint16_t addr = n*(LINE_BUFFER_SIZE+1)+EEPROM_ADDR_STARTUP_BLOCK;
if (!(memcpy_from_eeprom_with_checksum((char*)line, addr, LINE_BUFFER_SIZE))) {
// Reset line with default value
line[0] = 0;
settings_store_startup_line(n, line);
return(false);
} else {
return(true);
}
}
// Read selected coordinate data from EEPROM. Updates pointed coord_data value.
uint8_t settings_read_coord_data(uint8_t coord_select, float *coord_data)
{
uint16_t addr = coord_select*(sizeof(float)*N_AXIS+1) + EEPROM_ADDR_PARAMETERS;
if (!(memcpy_from_eeprom_with_checksum((char*)coord_data, addr, sizeof(float)*N_AXIS))) {
// Reset with default zero vector
clear_vector_float(coord_data);
settings_write_coord_data(coord_select,coord_data);
return(false);
} else {
return(true);
}
}
// Reads Grbl global settings struct from EEPROM.
uint8_t read_global_settings() {
// Check version-byte of eeprom
uint8_t version = eeprom_get_char(0);
if (version == SETTINGS_VERSION) {
// Read settings-record and check checksum
if (!(memcpy_from_eeprom_with_checksum((char*)&settings, EEPROM_ADDR_GLOBAL, sizeof(settings_t)))) {
return(false);
}
} else {
if (version <= 4) {
// Migrate from settings version 4 to current version.
if (!(memcpy_from_eeprom_with_checksum((char*)&settings, 1, sizeof(settings_v4_t)))) {
return(false);
}
settings_reset(false); // Old settings ok. Write new settings only.
} else {
return(false);
}
}
return(true);
}
// A helper method to set settings from command line
uint8_t settings_store_global_setting(int parameter, float value) {
switch(parameter) {
case 0: case 1: case 2:
if (value <= 0.0) { return(STATUS_SETTING_VALUE_NEG); }
settings.steps_per_mm[parameter] = value; break;
case 3:
if (value < 3) { return(STATUS_SETTING_STEP_PULSE_MIN); }
settings.pulse_microseconds = round(value); break;
case 4: settings.default_feed_rate = value; break;
case 5: settings.default_seek_rate = value; break;
case 6: settings.invert_mask = trunc(value); break;
case 7: settings.stepper_idle_lock_time = round(value); break;
case 8: settings.acceleration = value*60*60; break; // Convert to mm/min^2 for grbl internal use.
case 9: settings.junction_deviation = fabs(value); break;
case 10: settings.mm_per_arc_segment = value; break;
case 11: settings.n_arc_correction = round(value); break;
case 12: settings.decimal_places = round(value); break;
case 13:
if (value) { settings.flags |= BITFLAG_REPORT_INCHES; }
else { settings.flags &= ~BITFLAG_REPORT_INCHES; }
break;
case 14: // Reset to ensure change. Immediate re-init may cause problems.
if (value) { settings.flags |= BITFLAG_AUTO_START; }
else { settings.flags &= ~BITFLAG_AUTO_START; }
break;
case 15: // Reset to ensure change. Immediate re-init may cause problems.
if (value) { settings.flags |= BITFLAG_INVERT_ST_ENABLE; }
else { settings.flags &= ~BITFLAG_INVERT_ST_ENABLE; }
break;
case 16:
if (value) { settings.flags |= BITFLAG_HARD_LIMIT_ENABLE; }
else { settings.flags &= ~BITFLAG_HARD_LIMIT_ENABLE; }
limits_init(); // Re-init to immediately change. NOTE: Nice to have but could be problematic later.
break;
case 17:
if (value) { settings.flags |= BITFLAG_HOMING_ENABLE; }
else { settings.flags &= ~BITFLAG_HOMING_ENABLE; }
break;
case 18: settings.homing_dir_mask = trunc(value); break;
case 19:
settings.homing_feed_rate = value;
home_init(); // Re-init to immediately change.
break;
case 20:
settings.homing_seek_rate = value;
home_init(); // Re-init to immediately change.
break;
case 21: settings.homing_debounce_delay = round(value); break;
case 22: settings.homing_pulloff = value; break;
default:
return(STATUS_INVALID_STATEMENT);
}
write_global_settings();
return(STATUS_OK);
}
// Initialize the config subsystem
void settings_init() {
if(!read_global_settings()) {
report_status_message(STATUS_SETTING_READ_FAIL);
settings_reset(true);
report_grbl_settings();
}
// Read all parameter data into a dummy variable. If error, reset to zero, otherwise do nothing.
float coord_data[N_AXIS];
uint8_t i;
for (i=0; i<=SETTING_INDEX_NCOORD; i++) {
if (!settings_read_coord_data(i, coord_data)) {
report_status_message(STATUS_SETTING_READ_FAIL);
}
}
// NOTE: Startup lines are handled and called by main.c at the end of initialization.
}