162 lines
5.9 KiB
C
162 lines
5.9 KiB
C
/* Copyright 2021 OpenAnnePro community
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation, either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <string.h>
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#include <stdio.h>
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#include "hal.h"
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#include "annepro2.h"
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#include "ap2_led.h"
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#include "protocol.h"
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ap2_led_t led_mask[KEY_COUNT];
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ap2_led_t led_colors[KEY_COUNT];
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ap2_led_status_t ap2_led_status;
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uint8_t rgb_row_changed[NUM_ROW];
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void led_command_callback(const message_t *msg) {
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switch (msg->command) {
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case CMD_LED_STATUS:
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ap2_led_status.amount_of_profiles = msg->payload[0];
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ap2_led_status.current_profile = msg->payload[1];
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ap2_led_status.matrix_enabled = msg->payload[2];
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ap2_led_status.is_reactive = msg->payload[3];
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ap2_led_status.led_intensity = msg->payload[4];
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ap2_led_status.errors = msg->payload[5];
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break;
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#ifdef CONSOLE_ENABLE
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case CMD_LED_DEBUG:
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/* TODO: Don't use printf. */
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printf("LED:");
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for (int i = 0; i < msg->payload_size; i++) {
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printf("%02x ", msg->payload[i]);
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}
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for (int i = 0; i < msg->payload_size; i++) {
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printf("%c", msg->payload[i]);
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}
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printf("\n");
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break;
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#endif
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}
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}
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void ap2_set_IAP(void) { proto_tx(CMD_LED_IAP, NULL, 0, 3); }
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void ap2_led_disable(void) { proto_tx(CMD_LED_OFF, NULL, 0, 3); }
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void ap2_led_enable(void) { proto_tx(CMD_LED_ON, NULL, 0, 3); }
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void ap2_led_set_profile(uint8_t prof) { proto_tx(CMD_LED_SET_PROFILE, &prof, sizeof(prof), 3); }
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void ap2_led_get_status() { proto_tx(CMD_LED_GET_STATUS, NULL, 0, 3); }
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void ap2_led_next_profile() { proto_tx(CMD_LED_NEXT_PROFILE, NULL, 0, 3); }
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void ap2_led_next_intensity() { proto_tx(CMD_LED_NEXT_INTENSITY, NULL, 0, 3); }
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void ap2_led_next_animation_speed() { proto_tx(CMD_LED_NEXT_ANIMATION_SPEED, NULL, 0, 3); }
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void ap2_led_prev_profile() { proto_tx(CMD_LED_PREV_PROFILE, NULL, 0, 3); }
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void ap2_led_mask_set_key(uint8_t row, uint8_t col, ap2_led_t color) {
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uint8_t payload[] = {row, col, color.p.blue, color.p.green, color.p.red, color.p.alpha};
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proto_tx(CMD_LED_MASK_SET_KEY, payload, sizeof(payload), 1);
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}
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/* Push a whole local row to the shine */
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void ap2_led_mask_set_row(uint8_t row) {
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uint8_t payload[NUM_COLUMN * sizeof(ap2_led_t) + 1];
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payload[0] = row;
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memcpy(payload + 1, &led_mask[ROWCOL2IDX(row, 0)], sizeof(*led_mask) * NUM_COLUMN);
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proto_tx(CMD_LED_MASK_SET_ROW, payload, sizeof(payload), 1);
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}
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/* Synchronize all rows */
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void ap2_led_mask_set_all(void) {
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for (int row = 0; row < 5; row++) ap2_led_mask_set_row(row);
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}
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/* Set all keys to a given color */
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void ap2_led_mask_set_mono(const ap2_led_t color) { proto_tx(CMD_LED_MASK_SET_MONO, (uint8_t *)&color, sizeof(color), 1); }
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void ap2_led_colors_set_key(uint8_t row, uint8_t col, ap2_led_t color) {
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uint8_t payload[] = {row, col, color.p.blue, color.p.green, color.p.red, color.p.alpha};
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proto_tx(CMD_LED_COLOR_SET_KEY, payload, sizeof(payload), 1);
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}
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/* Push a whole local row to the shine */
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void ap2_led_colors_set_row(uint8_t row) {
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uint8_t payload[NUM_COLUMN * sizeof(ap2_led_t) + 1];
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payload[0] = row;
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memcpy(payload + 1, &led_colors[ROWCOL2IDX(row, 0)], sizeof(*led_colors) * NUM_COLUMN);
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proto_tx(CMD_LED_COLOR_SET_ROW, payload, sizeof(payload), 1);
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}
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/* Synchronize all rows */
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void ap2_led_colors_set_all(void) {
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for (int row = 0; row < 5; row++) ap2_led_colors_set_row(row);
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}
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/* Set all keys to a given color */
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void ap2_led_colors_set_mono(const ap2_led_t color) { proto_tx(CMD_LED_COLOR_SET_MONO, (uint8_t *)&color, sizeof(color), 1); }
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void ap2_led_set_manual_control(uint8_t manual) {
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uint8_t payload[] = {manual};
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proto_tx(CMD_LED_SET_MANUAL, payload, sizeof(payload), 1);
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}
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void ap2_led_blink(uint8_t row, uint8_t col, ap2_led_t color, uint8_t count, uint8_t hundredths) {
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uint8_t payload[] = {row, col, color.p.blue, color.p.green, color.p.red, color.p.alpha, count, hundredths};
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proto_tx(CMD_LED_KEY_BLINK, payload, sizeof(payload), 1);
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}
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void ap2_led_set_foreground_color(uint8_t red, uint8_t green, uint8_t blue) {
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ap2_led_t color = {.p.red = red, .p.green = green, .p.blue = blue, .p.alpha = 0xff};
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ap2_led_mask_set_mono(color);
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}
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void ap2_led_reset_foreground_color() {
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ap2_led_t color = {
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.p.red = 0,
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.p.green = 0,
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.p.blue = 0,
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.p.alpha = 0,
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};
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ap2_led_mask_set_mono(color);
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}
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/*
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* Currently keypresses are unified with other messages, still with single 1
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* byte payload. Transfer is normally fast enough for that to not be a problem -
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* especially with asynchronous message reading.
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*
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*
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* Previous description:
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* If enabled, this data is sent to LED MCU on every keypress.
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* In order to improve performance, both row and column values
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* are packed into a single byte.
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* Row range is [0, 4] and requires only 3 bits.
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* Column range is [0, 13] and requires 4 bits.
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*
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* In order to differentiate this command from regular commands,
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* the leftmost bit is set to 1 (0b10000000).
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* Following it are 3 bits of row and 4 bits of col.
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* 1 + 3 + 4 = 8 bits - only a single byte is sent for every keypress.
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*/
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void ap2_led_forward_keypress(uint8_t row, uint8_t col) {
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const uint8_t payload = row << 4 | col;
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proto_tx(CMD_LED_KEY_DOWN, &payload, 1, 1);
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}
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