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onoff.c
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onoff.c
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/*
onoff.c - on/off + optional direction spindle driver
Part of grblHAL
Copyright (c) 2023-2024 Terje Io
grblHAL 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.
grblHAL 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 grblHAL. If not, see <http://www.gnu.org/licenses/>.
*/
#include <math.h>
#include "shared.h"
#if SPINDLE_ENABLE & ((1<<SPINDLE_ONOFF1)|(1<<SPINDLE_ONOFF1_DIR))
#ifdef SPINDLE1_ENABLE_PIN
#define ON_OFF_N_PORTS 0
#elif SPINDLE_ENABLE & (1<<SPINDLE_ONOFF1_DIR)
#define ON_OFF_N_PORTS 2
#else
#define ON_OFF_N_PORTS 1
#endif
#if ON_OFF_N_PORTS
#include "grbl/protocol.h"
#include "grbl/nvs_buffer.h"
typedef struct {
uint8_t on_port;
uint8_t dir_port;
} onoff_spindle_settings_t;
static onoff_spindle_settings_t spindle_config, run;
static spindle_state_t spindle_state = {0};
static nvs_address_t nvs_address;
static uint8_t n_dout;
static char max_dport[4];
// Start or stop spindle
static void spindleSetState (spindle_ptrs_t *spindle, spindle_state_t state, float rpm)
{
UNUSED(spindle);
spindle_state = state;
#if SPINDLE_ENABLE & (1<<SPINDLE_ONOFF1_DIR)
hal.port.digital_out(run.dir_port, state.ccw);
#endif
hal.port.digital_out(run.on_port, state.on);
}
// Returns spindle state in a spindle_state_t variable
static spindle_state_t spindleGetState (spindle_ptrs_t *spindle)
{
UNUSED(spindle);
return spindle_state;
}
static void onoff_spindle_register (void)
{
static const spindle_ptrs_t spindle = {
.type = SpindleType_Basic,
.ref_id = SPINDLE_ONOFF1,
.cap = {
#if ON_OFF_N_PORTS == 2
.direction = On,
#endif
.gpio_controlled = On
},
.set_state = spindleSetState,
.get_state = spindleGetState
};
if((spindle_register(&spindle, "On/off spindle")) != -1)
spindleSetState(NULL, spindle_state, 0.0f);
else
protocol_enqueue_foreground_task(report_warning, "On/off spindle failed to initialize!");
}
static const setting_detail_t vfd_settings[] = {
{ Setting_Spindle_OnPort, Group_AuxPorts, "Spindle on port", NULL, Format_Int8, "#0", "0", max_dport, Setting_NonCore, &spindle_config.on_port, NULL, NULL, { .reboot_required = On } },
#if ON_OFF_N_PORTS == 2
{ Setting_Spindle_DirPort, Group_AuxPorts, "Spindle dir port", NULL, Format_Int8, "#0", "0", max_dport, Setting_NonCore, &spindle_config.dir_port, NULL, NULL, { .reboot_required = On } }
#endif
};
#ifndef NO_SETTINGS_DESCRIPTIONS
static const setting_descr_t spindle_settings_descr[] = {
{ Setting_Spindle_OnPort, "Spindle 0 (default spindle) VFD ModBus address" },
#if ON_OFF_N_PORTS == 2
{ Setting_Spindle_DirPort, "Spindle 1 VFD ModBus address" }
#endif
};
#endif
static void spindle_settings_save (void)
{
hal.nvs.memcpy_to_nvs(nvs_address, (uint8_t *)&spindle_config, sizeof(onoff_spindle_settings_t), true);
}
static void spindle_settings_restore (void)
{
spindle_config.on_port = n_dout - 1;
spindle_config.dir_port = n_dout > 1 ? n_dout - 2 : 0;
hal.nvs.memcpy_to_nvs(nvs_address, (uint8_t *)&spindle_config, sizeof(onoff_spindle_settings_t), true);
}
static void spindle_settings_load (void)
{
bool ok;
if((hal.nvs.memcpy_from_nvs((uint8_t *)&spindle_config, nvs_address, sizeof(onoff_spindle_settings_t), true) != NVS_TransferResult_OK))
spindle_settings_restore();
run.on_port = spindle_config.on_port;
run.dir_port = spindle_config.dir_port;
strcpy(max_dport, uitoa(max(n_dout, ioports_available(Port_Digital, Port_Output)) - 1));
ok = ioport_claim(Port_Digital, Port_Output, &run.on_port, "Spindle on");
#if ON_OFF_N_PORTS == 2
ok = ok && ioport_claim(Port_Digital, Port_Output, &run.dir_port, "Spindle direction");
#endif
if(ok)
onoff_spindle_register();
else
protocol_enqueue_foreground_task(report_warning, "On/off spindle failed to initialize!");
}
static setting_details_t vfd_setting_details = {
.settings = vfd_settings,
.n_settings = sizeof(vfd_settings) / sizeof(setting_detail_t),
#ifndef NO_SETTINGS_DESCRIPTIONS
.descriptions = spindle_settings_descr,
.n_descriptions = sizeof(spindle_settings_descr) / sizeof(setting_descr_t),
#endif
.load = spindle_settings_load,
.restore = spindle_settings_restore,
.save = spindle_settings_save
};
void onoff_spindle_init (void)
{
if((n_dout = hal.port.num_digital_out) < ON_OFF_N_PORTS)
protocol_enqueue_foreground_task(report_warning, "On/off spindle failed to initialize!");
else if(!ioport_can_claim_explicit()) {
run.on_port = --hal.port.num_digital_out;
#if ON_OFF_N_PORTS == 2
run.dir_port = --hal.port.num_digital_out;
#endif
onoff_spindle_register();
} else if((nvs_address = nvs_alloc(sizeof(onoff_spindle_settings_t)))) {
hal.port.num_digital_out -= ON_OFF_N_PORTS;
settings_register(&vfd_setting_details);
} else
protocol_enqueue_foreground_task(report_warning, "On/off spindle failed to initialize!");
}
#else // ON_OFF_N_PORTS == 0
// Dummy init for when the base driver provides the spindle implementation
void onoff_spindle_init (void)
{
}
#endif
#endif // SPINDLE_ENABLE