path: root/power/application.c

#include <bcl.h>

#define LED_STRIP_COUNT 300
#define LED_STRIP_TYPE BC_LED_STRIP_TYPE_RGB

#define TEMPERATURE_PUB_NO_CHANGE_INTEVAL (15 * 60 * 1000)
#define TEMPERATURE_PUB_VALUE_CHANGE 0.2f
#define TEMPERATURE_UPDATE_INTERVAL (1 * 1000)

typedef struct {
	uint8_t channel;
	float value;
	bc_tick_t next_pub;
} event_param_t;

// LED instance
bc_led_t led;
bool led_state = false;

// Button instance
bc_button_t button;

// Temperature instance
bc_tag_temperature_t temperature;
event_param_t temperature_event_param = { .next_pub = 0 };

// Led strip
static uint32_t _bc_module_power_led_strip_dma_buffer[LED_STRIP_COUNT * LED_STRIP_TYPE * 2];
const bc_led_strip_buffer_t led_strip_buffer = {
	.type = LED_STRIP_TYPE,
	.count = LED_STRIP_COUNT,
	.buffer = _bc_module_power_led_strip_dma_buffer
};

static struct {
	enum {
		LED_STRIP_SHOW_COLOR = 0,
		LED_STRIP_SHOW_COMPOUND = 1,
		LED_STRIP_SHOW_EFFECT = 2,
		LED_STRIP_SHOW_THERMOMETER = 3

	} show;
	bc_led_strip_t self;
	uint32_t color;
	struct {
		uint8_t data[BC_RADIO_NODE_MAX_COMPOUND_BUFFER_SIZE];
		int length;
	} compound;
	struct {
		float temperature;
		int8_t min;
		int8_t max;
		uint8_t white_dots;
		float set_point;
		uint32_t color;

	} thermometer;

	bc_scheduler_task_id_t update_task_id;

} led_strip = { .show = LED_STRIP_SHOW_COLOR, .color = 0 };

void button_event_handler(bc_button_t *self, bc_button_event_t event, void *event_param) {
	(void) self;
	(void) event_param;

	if (event == BC_BUTTON_EVENT_PRESS)
	{
		bc_led_pulse(&led, 100);
	}
}

void temperature_tag_event_handler(bc_tag_temperature_t *self, bc_tag_temperature_event_t event, void *event_param) {
	float value;
	event_param_t *param = (event_param_t *)event_param;

	if (event == BC_TAG_TEMPERATURE_EVENT_UPDATE) {
		if (bc_tag_temperature_get_temperature_celsius(self, &value)) {
			if ((fabs(value - param->value) >= TEMPERATURE_PUB_VALUE_CHANGE) || (param->next_pub < bc_scheduler_get_spin_tick())) {
				bc_radio_pub_temperature(param->channel, &value);

				param->value = value;
				param->next_pub = bc_scheduler_get_spin_tick() + TEMPERATURE_PUB_NO_CHANGE_INTEVAL;
			}
		}
	}
}

void bc_radio_node_on_state_get(uint64_t *id, uint8_t state_id) {
	(void) id;

	if (state_id == BC_RADIO_NODE_STATE_POWER_MODULE_RELAY) {
		bool state = bc_module_power_relay_get_state();
		bc_radio_pub_state(BC_RADIO_PUB_STATE_POWER_MODULE_RELAY, &state);
	} else if (state_id == BC_RADIO_NODE_STATE_LED) {
		bc_radio_pub_state(BC_RADIO_PUB_STATE_LED, &led_state);
	}
}

void bc_radio_node_on_state_set(uint64_t *id, uint8_t state_id, bool *state) {
	(void) id;

	if (state_id == BC_RADIO_NODE_STATE_POWER_MODULE_RELAY) {
		bc_module_power_relay_set_state(*state);

		bc_radio_pub_state(BC_RADIO_PUB_STATE_POWER_MODULE_RELAY, state);
	} else if (state_id == BC_RADIO_NODE_STATE_LED) {
		led_state = *state;
		bc_led_set_mode(&led, led_state ? BC_LED_MODE_ON : BC_LED_MODE_OFF);
		bc_radio_pub_state(BC_RADIO_PUB_STATE_LED, &led_state);
	}
}

void led_strip_update_task(void *param) {
	(void) param;

	if (!bc_led_strip_is_ready(&led_strip.self)) {
		bc_scheduler_plan_current_now();
		return;
	}

	bc_led_strip_write(&led_strip.self);
	bc_scheduler_plan_current_relative(250);
}

void led_strip_fill(void) {
	if (led_strip.show == LED_STRIP_SHOW_COLOR) {
		bc_led_strip_fill(&led_strip.self, led_strip.color);
	} else if (led_strip.show == LED_STRIP_SHOW_COMPOUND) {
		int from = 0;
		int to;
		uint8_t *color;

		for (int i = 0; i < led_strip.compound.length; i += 5) {
			color = led_strip.compound.data + i + 1;
			to = from + led_strip.compound.data[i];

			for (;(from < to) && (from < LED_STRIP_COUNT); from++) {
				bc_led_strip_set_pixel_rgbw(&led_strip.self, from, color[3], color[2], color[1], color[0]);
			}

			from = to;
		}
	} else if (led_strip.show == LED_STRIP_SHOW_THERMOMETER) {
		bc_led_strip_thermometer(&led_strip.self, led_strip.thermometer.temperature, led_strip.thermometer.min, led_strip.thermometer.max, led_strip.thermometer.white_dots, led_strip.thermometer.set_point, led_strip.thermometer.color);
	}
}

void bc_radio_node_on_led_strip_color_set(uint64_t *id, uint32_t *color) {
	(void) id;

	bc_led_strip_effect_stop(&led_strip.self);
	led_strip.color = *color;
	led_strip.show = LED_STRIP_SHOW_COLOR;
	led_strip_fill();
	bc_scheduler_plan_now(led_strip.update_task_id);
}

void bc_radio_node_on_led_strip_brightness_set(uint64_t *id, uint8_t *brightness) {
	(void) id;

	bc_led_strip_set_brightness(&led_strip.self, *brightness);
	led_strip_fill();
	bc_scheduler_plan_now(led_strip.update_task_id);
}

void bc_radio_node_on_led_strip_compound_set(uint64_t *id, uint8_t *compound, size_t length) {
	(void) id;

	bc_led_strip_effect_stop(&led_strip.self);
	memcpy(led_strip.compound.data, compound, length);
	led_strip.compound.length = length;
	led_strip.show = LED_STRIP_SHOW_COMPOUND;
	led_strip_fill();
	bc_scheduler_plan_now(led_strip.update_task_id);
}

void bc_radio_node_on_led_strip_effect_set(uint64_t *id, bc_radio_node_led_strip_effect_t type, uint16_t wait, uint32_t *color) {
	(void) id;

	switch (type) {
		case BC_RADIO_NODE_LED_STRIP_EFFECT_TEST:
			bc_led_strip_effect_test(&led_strip.self);
			break;
		case BC_RADIO_NODE_LED_STRIP_EFFECT_RAINBOW:
			bc_led_strip_effect_rainbow(&led_strip.self, wait);
			break;
		case BC_RADIO_NODE_LED_STRIP_EFFECT_RAINBOW_CYCLE:
			bc_led_strip_effect_rainbow_cycle(&led_strip.self, wait);
			break;
		case BC_RADIO_NODE_LED_STRIP_EFFECT_THEATER_CHASE_RAINBOW:
			bc_led_strip_effect_theater_chase_rainbow(&led_strip.self, wait);
			break;
		case BC_RADIO_NODE_LED_STRIP_EFFECT_COLOR_WIPE:
			bc_led_strip_effect_color_wipe(&led_strip.self, *color, wait);
			break;
		case BC_RADIO_NODE_LED_STRIP_EFFECT_THEATER_CHASE:
			bc_led_strip_effect_theater_chase(&led_strip.self, *color, wait);
			break;
		case BC_RADIO_NODE_LED_STRIP_EFFECT_STROBOSCOPE:
			bc_led_strip_effect_stroboscope(&led_strip.self, *color, wait);
			break;
		case BC_RADIO_NODE_LED_STRIP_EFFECT_ICICLE:
			bc_led_strip_effect_icicle(&led_strip.self, *color, wait);
			break;
		case BC_RADIO_NODE_LED_STRIP_EFFECT_PULSE_COLOR:
			bc_led_strip_effect_pulse_color(&led_strip.self, *color, wait);
			break;
		default:
			return;
	}
	led_strip.show = LED_STRIP_SHOW_EFFECT;
}

void bc_radio_node_on_led_strip_thermometer_set(uint64_t *id, float *temperature, int8_t *min, int8_t *max, uint8_t *white_dots, float *set_point, uint32_t *set_point_color) {
	(void) id;

	bc_led_strip_effect_stop(&led_strip.self);

	led_strip.thermometer.temperature = *temperature;
	led_strip.thermometer.min = *min;
	led_strip.thermometer.max = *max;
	led_strip.thermometer.white_dots = *white_dots;

	if (set_point != NULL) {
		led_strip.thermometer.set_point = *set_point;
		led_strip.thermometer.color = *set_point_color;
	} else {
		led_strip.thermometer.set_point = *min - 1;
	}

	led_strip.show = LED_STRIP_SHOW_THERMOMETER;
	led_strip_fill();

	bc_scheduler_plan_now(led_strip.update_task_id);
}

void application_init(void) {
	// Initialize LED
	bc_led_init(&led, BC_GPIO_LED, false, false);
	bc_led_set_mode(&led, BC_LED_MODE_OFF);

	bc_radio_init(BC_RADIO_MODE_NODE_LISTENING);

	// Initialize button
	bc_button_init(&button, BC_GPIO_BUTTON, BC_GPIO_PULL_DOWN, false);
	bc_button_set_scan_interval(&button, 20);
	bc_button_set_event_handler(&button, button_event_handler, NULL);

	// Initialize temperature
	temperature_event_param.channel = BC_RADIO_PUB_CHANNEL_R1_I2C0_ADDRESS_ALTERNATE;
	bc_tag_temperature_init(&temperature, BC_I2C_I2C0, BC_TAG_TEMPERATURE_I2C_ADDRESS_ALTERNATE);
	bc_tag_temperature_set_update_interval(&temperature, TEMPERATURE_UPDATE_INTERVAL);
	bc_tag_temperature_set_event_handler(&temperature, temperature_tag_event_handler, &temperature_event_param);

	// Initialize power module
	bc_module_power_init();

	// Initialize led-strip on power module
	bc_led_strip_init(&led_strip.self, bc_module_power_get_led_strip_driver(), &led_strip_buffer);

	led_strip.update_task_id = bc_scheduler_register(led_strip_update_task, NULL, 0);

	bc_radio_pairing_request("power-controller", VERSION);

	bc_led_pulse(&led, 2000);
}