mirror of https://github.com/Desuuuu/klipper.git
216 lines
7.1 KiB
C
216 lines
7.1 KiB
C
// Commands for controlling GPIO output pins
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//
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// Copyright (C) 2016-2020 Kevin O'Connor <kevin@koconnor.net>
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//
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// This file may be distributed under the terms of the GNU GPLv3 license.
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#include "basecmd.h" // oid_alloc
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#include "board/gpio.h" // struct gpio_out
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#include "board/irq.h" // irq_disable
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#include "board/misc.h" // timer_is_before
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#include "command.h" // DECL_COMMAND
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#include "sched.h" // sched_add_timer
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struct digital_out_s {
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struct timer timer;
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uint32_t on_duration, off_duration, end_time;
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struct gpio_out pin;
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uint32_t max_duration, cycle_time;
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struct move_queue_head mq;
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uint8_t flags;
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};
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struct digital_move {
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struct move_node node;
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uint32_t waketime, on_duration;
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};
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enum {
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DF_ON=1<<0, DF_TOGGLING=1<<1, DF_CHECK_END=1<<2, DF_DEFAULT_ON=1<<4
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};
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static uint_fast8_t digital_load_event(struct timer *timer);
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// Software PWM toggle event
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static uint_fast8_t
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digital_toggle_event(struct timer *timer)
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{
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struct digital_out_s *d = container_of(timer, struct digital_out_s, timer);
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gpio_out_toggle_noirq(d->pin);
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d->flags ^= DF_ON;
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uint32_t waketime = d->timer.waketime;
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if (d->flags & DF_ON)
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waketime += d->on_duration;
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else
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waketime += d->off_duration;
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if (d->flags & DF_CHECK_END && !timer_is_before(waketime, d->end_time)) {
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// End of normal pulsing - next event loads new pwm settings
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d->timer.func = digital_load_event;
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waketime = d->end_time;
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}
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d->timer.waketime = waketime;
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return SF_RESCHEDULE;
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}
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// Load next pin output setting
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static uint_fast8_t
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digital_load_event(struct timer *timer)
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{
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// Apply next update and remove it from queue
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struct digital_out_s *d = container_of(timer, struct digital_out_s, timer);
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if (move_queue_empty(&d->mq))
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shutdown("Missed scheduling of next digital out event");
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struct move_node *mn = move_queue_pop(&d->mq);
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struct digital_move *m = container_of(mn, struct digital_move, node);
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uint32_t on_duration = m->on_duration;
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uint8_t flags = on_duration ? DF_ON : 0;
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gpio_out_write(d->pin, flags);
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move_free(m);
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// Calculate next end_time and flags
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uint32_t end_time = 0;
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if (!flags || on_duration >= d->cycle_time) {
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// Pin is in an always on or always off state
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if (!flags != !(d->flags & DF_DEFAULT_ON) && d->max_duration) {
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end_time = d->timer.waketime + d->max_duration;
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flags |= DF_CHECK_END;
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}
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} else {
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flags |= DF_TOGGLING;
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if (d->max_duration) {
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end_time = d->timer.waketime + d->max_duration;
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flags |= DF_CHECK_END;
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}
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}
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if (!move_queue_empty(&d->mq)) {
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struct move_node *nn = move_queue_first(&d->mq);
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uint32_t wake = container_of(nn, struct digital_move, node)->waketime;
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if (flags & DF_CHECK_END && timer_is_before(end_time, wake))
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shutdown("Scheduled digital out event will exceed max_duration");
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end_time = wake;
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flags |= DF_CHECK_END;
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}
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d->end_time = end_time;
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d->flags = flags | (d->flags & DF_DEFAULT_ON);
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// Schedule next event
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if (!(flags & DF_TOGGLING)) {
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if (!(flags & DF_CHECK_END))
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// Pin not toggling and nothing scheduled
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return SF_DONE;
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d->timer.waketime = end_time;
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return SF_RESCHEDULE;
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}
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uint32_t waketime = d->timer.waketime + on_duration;
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if (flags & DF_CHECK_END && !timer_is_before(waketime, end_time)) {
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d->timer.waketime = end_time;
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return SF_RESCHEDULE;
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}
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d->timer.func = digital_toggle_event;
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d->timer.waketime = waketime;
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d->on_duration = on_duration;
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d->off_duration = d->cycle_time - on_duration;
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return SF_RESCHEDULE;
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}
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void
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command_config_digital_out(uint32_t *args)
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{
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struct gpio_out pin = gpio_out_setup(args[1], !!args[2]);
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struct digital_out_s *d = oid_alloc(args[0], command_config_digital_out
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, sizeof(*d));
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d->pin = pin;
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d->flags = (args[2] ? DF_ON : 0) | (args[3] ? DF_DEFAULT_ON : 0);
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d->max_duration = args[4];
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move_queue_setup(&d->mq, sizeof(struct digital_move));
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}
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DECL_COMMAND(command_config_digital_out,
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"config_digital_out oid=%c pin=%u value=%c"
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" default_value=%c max_duration=%u");
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void
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command_set_digital_out_pwm_cycle(uint32_t *args)
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{
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struct digital_out_s *d = oid_lookup(args[0], command_config_digital_out);
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irq_disable();
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if (!move_queue_empty(&d->mq))
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shutdown("Can not set soft pwm cycle ticks while updates pending");
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d->cycle_time = args[1];
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irq_enable();
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}
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DECL_COMMAND(command_set_digital_out_pwm_cycle,
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"set_digital_out_pwm_cycle oid=%c cycle_ticks=%u");
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void
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command_queue_digital_out(uint32_t *args)
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{
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struct digital_out_s *d = oid_lookup(args[0], command_config_digital_out);
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struct digital_move *m = move_alloc();
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uint32_t time = m->waketime = args[1];
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m->on_duration = args[2];
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irq_disable();
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int first_on_queue = move_queue_push(&m->node, &d->mq);
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if (!first_on_queue) {
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irq_enable();
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return;
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}
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uint8_t flags = d->flags;
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if (flags & DF_CHECK_END && timer_is_before(d->end_time, time))
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shutdown("Scheduled digital out event will exceed max_duration");
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d->end_time = time;
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d->flags = flags | DF_CHECK_END;
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if (flags & DF_TOGGLING && timer_is_before(d->timer.waketime, time)) {
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// digital_toggle_event() will schedule a load event when ready
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} else {
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// Schedule the loading of the parameters at the requested time
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sched_del_timer(&d->timer);
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d->timer.waketime = time;
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d->timer.func = digital_load_event;
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sched_add_timer(&d->timer);
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}
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irq_enable();
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}
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DECL_COMMAND(command_queue_digital_out,
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"queue_digital_out oid=%c clock=%u on_ticks=%u");
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void
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command_update_digital_out(uint32_t *args)
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{
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struct digital_out_s *d = oid_lookup(args[0], command_config_digital_out);
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sched_del_timer(&d->timer);
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if (!move_queue_empty(&d->mq))
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shutdown("update_digital_out not valid with active queue");
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uint8_t value = args[1], flags = d->flags, on_flag = value ? DF_ON : 0;
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gpio_out_write(d->pin, on_flag);
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if (!on_flag != !(flags & DF_DEFAULT_ON) && d->max_duration) {
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d->timer.waketime = d->end_time = timer_read_time() + d->max_duration;
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d->timer.func = digital_load_event;
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d->flags = (flags & DF_DEFAULT_ON) | on_flag | DF_CHECK_END;
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sched_add_timer(&d->timer);
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} else {
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d->flags = (flags & DF_DEFAULT_ON) | on_flag;
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}
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}
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DECL_COMMAND(command_update_digital_out, "update_digital_out oid=%c value=%c");
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void
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digital_out_shutdown(void)
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{
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uint8_t i;
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struct digital_out_s *d;
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foreach_oid(i, d, command_config_digital_out) {
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gpio_out_write(d->pin, d->flags & DF_DEFAULT_ON);
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d->flags = d->flags & DF_DEFAULT_ON ? DF_ON | DF_DEFAULT_ON : 0;
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move_queue_clear(&d->mq);
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}
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}
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DECL_SHUTDOWN(digital_out_shutdown);
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void
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command_set_digital_out(uint32_t *args)
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{
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gpio_out_setup(args[0], args[1]);
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}
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DECL_COMMAND(command_set_digital_out, "set_digital_out pin=%u value=%c");
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