/* Copyright 2021 @ Keychron (https://www.keychron.com) * * This program 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 2 of the License, or * (at your option) any later version. * * This program 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 this program. If not, see . */ #include "k8_pro.h" #ifdef BLUETOOTH_ENABLE # include "ckbt51.h" # include "bluetooth.h" # include "indicator.h" # include "transport.h" # include "battery.h" # include "bat_level_animation.h" # include "lpm.h" #endif #ifdef ENABLE_FACTORY_TEST # include "factory_test.h" #endif #define POWER_ON_LED_DURATION 3000 typedef struct PACKED { uint8_t len; uint8_t keycode[3]; } key_combination_t; static uint32_t power_on_indicator_timer_buffer; static uint32_t siri_timer_buffer = 0; static uint8_t mac_keycode[4] = {KC_LOPT, KC_ROPT, KC_LCMD, KC_RCMD}; key_combination_t key_comb_list[4] = { {2, {KC_LWIN, KC_TAB}}, // Task (win) {2, {KC_LWIN, KC_E}}, // Files (win) {3, {KC_LSFT, KC_LGUI, KC_4}}, // Snapshot (mac) {2, {KC_LWIN, KC_C}} // Cortana (win) }; #ifdef BLUETOOTH_ENABLE bool firstDisconnect = true; bool bt_factory_reset = false; static virtual_timer_t pairing_key_timer; extern uint8_t g_pwm_buffer[DRIVER_COUNT][192]; static void pairing_key_timer_cb(void *arg) { bluetooth_pairing_ex(*(uint8_t *)arg, NULL); } #endif bool dip_switch_update_kb(uint8_t index, bool active) { if (index == 0) { default_layer_set(1UL << (active ? 2 : 0)); } dip_switch_update_user(index, active); return true; } #ifdef BLUETOOTH_ENABLE bool process_record_kb_bt(uint16_t keycode, keyrecord_t *record) { #else bool process_record_kb(uint16_t keycode, keyrecord_t *record) { #endif static uint8_t host_idx = 0; switch (keycode) { case KC_LOPTN: case KC_ROPTN: case KC_LCMMD: case KC_RCMMD: if (record->event.pressed) { register_code(mac_keycode[keycode - KC_LOPTN]); } else { unregister_code(mac_keycode[keycode - KC_LOPTN]); } return false; // Skip all further processing of this key) case KC_MCTL: /* Mission Control */ host_consumer_send(record->event.pressed ? 0x29F : 0); return false; // Skip all further processing of this key case KC_LNPD: /* Lanuchpad */ host_consumer_send(record->event.pressed ? 0x2A0 : 0); return false; // Skip all further processing of this key case KC_TASK: case KC_FILE: case KC_SNAP: case KC_CTANA: if (record->event.pressed) { for (uint8_t i = 0; i < key_comb_list[keycode - KC_TASK].len; i++) register_code(key_comb_list[keycode - KC_TASK].keycode[i]); } else { for (uint8_t i = 0; i < key_comb_list[keycode - KC_TASK].len; i++) unregister_code(key_comb_list[keycode - KC_TASK].keycode[i]); } return false; // Skip all further processing of this key case KC_SIRI: if (record->event.pressed && siri_timer_buffer == 0) { register_code(KC_LGUI); register_code(KC_SPACE); siri_timer_buffer = sync_timer_read32() | 1; } return false; // Skip all further processing of this key #ifdef BLUETOOTH_ENABLE case BT_HST1 ... BT_HST3: if (get_transport() == TRANSPORT_BLUETOOTH) { if (record->event.pressed) { host_idx = keycode - BT_HST1 + 1; chVTSet(&pairing_key_timer, TIME_MS2I(2000), (vtfunc_t)pairing_key_timer_cb, &host_idx); bluetooth_connect_ex(host_idx, 0); } else { host_idx = 0; chVTReset(&pairing_key_timer); } } break; case BAT_LVL: if (get_transport() == TRANSPORT_BLUETOOTH && !usb_power_connected()) { bat_level_animiation_start(battery_get_percentage()); } break; #endif default: #ifdef FACTORY_RESET_CHECK FACTORY_RESET_CHECK(keycode, record); #endif break; } return true; } void keyboard_post_init_kb(void) { dip_switch_read(true); #ifdef BLUETOOTH_ENABLE /* Currently we don't use this reset pin */ palSetLineMode(CKBT51_RESET_PIN, PAL_MODE_UNCONNECTED); /* IMPORTANT: DO NOT enable internal pull-up resistor * as there is an external pull-down resistor. */ palSetLineMode(USB_BT_MODE_SELECT_PIN, PAL_MODE_INPUT); ckbt51_init(false); bluetooth_init(); # endif power_on_indicator_timer_buffer = sync_timer_read32() | 1; writePin(BAT_LOW_LED_PIN, BAT_LOW_LED_PIN_ON_STATE); writePin(LED_CAPS_LOCK_PIN, LED_PIN_ON_STATE); #ifdef BLUETOOTH_ENABLE writePin(H3, HOST_LED_PIN_ON_STATE); # endif keyboard_post_init_user(); } void matrix_scan_kb(void) { if (power_on_indicator_timer_buffer) { if (sync_timer_elapsed32(power_on_indicator_timer_buffer) > POWER_ON_LED_DURATION) { power_on_indicator_timer_buffer = 0; writePin(BAT_LOW_LED_PIN, !BAT_LOW_LED_PIN_ON_STATE); writePin(H3, !HOST_LED_PIN_ON_STATE); if (!host_keyboard_led_state().caps_lock) writePin(LED_CAPS_LOCK_PIN, !LED_PIN_ON_STATE); } else { writePin(BAT_LOW_LED_PIN, BAT_LOW_LED_PIN_ON_STATE); writePin(H3, HOST_LED_PIN_ON_STATE); writePin(LED_CAPS_LOCK_PIN, LED_PIN_ON_STATE); } } if (siri_timer_buffer && sync_timer_elapsed32(siri_timer_buffer) > 500) { siri_timer_buffer = 0; unregister_code(KC_LGUI); unregister_code(KC_SPACE); } #ifdef FACTORY_RESET_TASK FACTORY_RESET_TASK(); # endif matrix_scan_user(); } #ifdef BLUETOOTH_ENABLE static void ckbt51_param_init(void) { /* Set bluetooth device name */ ckbt51_set_local_name(STR(PRODUCT)); /* Set bluetooth parameters */ module_param_t param = {.event_mode = 0x02, .connected_idle_timeout = 7200, .pairing_timeout = 180, .pairing_mode = 0, .reconnect_timeout = 5, .report_rate = 90, .vendor_id_source = 1, .verndor_id = 0, // Must be 0x3434 .product_id = PRODUCT_ID}; ckbt51_set_param(¶m); } void bluetooth_enter_disconnected_kb(uint8_t host_idx) { if (bt_factory_reset) { bt_factory_reset = false; ckbt51_param_init(); } /* CKBT51 bluetooth module boot time is slower, it enters disconnected after boot, so we place initialization here. */ if (firstDisconnect && sync_timer_read32() < 1000 && get_transport() == TRANSPORT_BLUETOOTH) { ckbt51_param_init(); bluetooth_connect(); firstDisconnect = false; } } void bluetooth_pre_task(void) { static uint8_t mode = 1; if (readPin(USB_BT_MODE_SELECT_PIN) != mode) { if (readPin(USB_BT_MODE_SELECT_PIN) != mode) { mode = readPin(USB_BT_MODE_SELECT_PIN); set_transport(mode == 0 ? TRANSPORT_BLUETOOTH : TRANSPORT_USB); } } } void battery_measure(void) { # ifdef LED_MATRIX_ENABLE if (led_matrix_is_enabled()) { ckbt51_read_state_reg(0x05, 0x02); return; } # endif # ifdef RGB_MATRIX_ENABLE if (rgb_matrix_is_enabled()) { ckbt51_read_state_reg(0x05, 0x02); return; } # endif } #endif void battery_calculte_voltage(uint16_t value) { uint16_t voltage = ((uint32_t)value) * 2246 / 1000; #ifdef LED_MATRIX_ENABLE if (led_matrix_is_enabled()) { uint32_t totalBuf = 0; for (uint8_t i = 0; i < DRIVER_COUNT; i++) for (uint8_t j = 0; j < 192; j++) totalBuf += g_pwm_buffer[i][j]; /* We assumpt it is linear relationship*/ voltage += (30 * totalBuf / DRIVER_LED_TOTAL / 255); } #endif #ifdef RGB_MATRIX_ENABLE if (rgb_matrix_is_enabled()) { uint32_t totalBuf = 0; for (uint8_t i = 0; i < DRIVER_COUNT; i++) for (uint8_t j = 0; j < 192; j++) totalBuf += g_pwm_buffer[i][j]; /* We assumpt it is linear relationship*/ uint32_t compensation = 60 * totalBuf / DRIVER_LED_TOTAL / 255 / 3; voltage += compensation; } #endif battery_set_voltage(voltage); } void raw_hid_receive_kb(uint8_t *data, uint8_t length) { switch (data[0]) { #ifdef BLUETOOTH_ENABLE case 0xAA: ckbt51_dfu_rx(data, length); break; #endif #ifdef ENABLE_FACTORY_TEST case 0xAB: factory_test_rx(data, length); break; #endif } } #if !defined(VIA_ENABLE) void raw_hid_receive(uint8_t *data, uint8_t length) { switch (data[0]) { case RAW_HID_CMD: raw_hid_receive_kb(data, length); break; } } #endif