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/* Copyright 2022 @ lokher (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 <http://www.gnu.org/licenses/>.
*/
#include "quantum.h"
#include "bluetooth.h"
#include "report_buffer.h"
#include "lpm.h"
#include "battery.h"
#include "indicator.h"
#include "transport.h"
extern uint8_t pairing_indication;
extern host_driver_t chibios_driver;
extern report_buffer_t kb_rpt;
extern uint32_t retry_time_buffer;
extern uint8_t retry;
#ifdef NKRO_ENABLE
typedef struct {
bool usb : 1;
bool bluetooth : 1;
} nkro_t;
extern nkro_t nkro;
#endif
static uint8_t host_index = 0;
static uint8_t led_state = 0;
extern bluetooth_transport_t bluetooth_transport;
static bluetooth_state_t bt_state = BLUETOOTH_RESET;
static bool pincodeEntry = false;
uint8_t bluetooth_report_protocol = true;
/* declarations */
uint8_t bluetooth_keyboard_leds(void);
void bluetooth_send_keyboard(report_keyboard_t *report);
void bluetooth_send_mouse(report_mouse_t *report);
void bluetooth_send_extra(report_extra_t *report);
/* host struct */
host_driver_t bluetooth_driver = {bluetooth_keyboard_leds, bluetooth_send_keyboard, bluetooth_send_mouse, bluetooth_send_extra};
#define BLUETOOTH_EVENT_QUEUE_SIZE 16
bluetooth_event_t bt_event_queue[BLUETOOTH_EVENT_QUEUE_SIZE];
uint8_t bt_event_queue_head;
uint8_t bt_event_queue_tail;
void bluetooth_bt_event_queue_init(void) {
// Initialise the event queue
memset(&bt_event_queue, 0, sizeof(bt_event_queue));
bt_event_queue_head = 0;
bt_event_queue_tail = 0;
}
bool bluetooth_event_queue_enqueue(bluetooth_event_t event) {
uint8_t next = (bt_event_queue_head + 1) % BLUETOOTH_EVENT_QUEUE_SIZE;
if (next == bt_event_queue_tail) {
/* Override the first report */
bt_event_queue_tail = (bt_event_queue_tail + 1) % BLUETOOTH_EVENT_QUEUE_SIZE;
}
bt_event_queue[bt_event_queue_head] = event;
bt_event_queue_head = next;
return true;
}
static inline bool bluetooth_event_queue_dequeue(bluetooth_event_t *event) {
if (bt_event_queue_head == bt_event_queue_tail) {
return false;
}
*event = bt_event_queue[bt_event_queue_tail];
bt_event_queue_tail = (bt_event_queue_tail + 1) % BLUETOOTH_EVENT_QUEUE_SIZE;
return true;
}
/*
* Bluetooth init.
*/
void bluetooth_init(void) {
bt_state = BLUETOOTH_INITIALIZED;
bluetooth_bt_event_queue_init();
#ifndef DISABLE_REPORT_BUFFER
report_buffer_init();
#endif
indicator_init();
#ifdef BLUETOOTH_INT_INPUT_PIN
setPinInputHigh(BLUETOOTH_INT_INPUT_PIN);
#endif
lpm_init();
}
/*
* Bluetooth trasponrt init. Bluetooth module driver shall use this function to register a callback
* to its implementation.
*/
void bluetooth_set_transport(bluetooth_transport_t *transport) {
if (transport) memcpy(&bluetooth_transport, transport, sizeof(bluetooth_transport_t));
}
/*
* Enter pairing with current host index
*/
void bluetooth_pairing(void) {
if (battery_is_critical_low()) return;
bluetooth_pairing_ex(0, NULL);
bt_state = BLUETOOTH_PARING;
}
/*
* Enter pairing with specified host index and param
*/
void bluetooth_pairing_ex(uint8_t host_idx, void *param) {
if (battery_is_critical_low()) return;
if (bluetooth_transport.pairing_ex) bluetooth_transport.pairing_ex(host_idx, param);
bt_state = BLUETOOTH_PARING;
host_index = host_idx;
}
/*
* Initiate connection request to paired host
*/
void bluetooth_connect(void) {
/* Work around empty report after wakeup, which leads to reconneect/disconnected loop */
if (battery_is_critical_low() || sync_timer_read32() == 0) return;
bluetooth_transport.connect_ex(0, 0);
bt_state = BLUETOOTH_RECONNECTING;
}
/*
* Initiate connection request to paired host with argument
*/
void bluetooth_connect_ex(uint8_t host_idx, uint16_t timeout) {
if (battery_is_critical_low()) return;
if (host_idx != 0) {
if (host_index == host_idx && bt_state == BLUETOOTH_CONNECTED) return;
host_index = host_idx;
led_state = 0;
}
bluetooth_transport.connect_ex(host_idx, timeout);
bt_state = BLUETOOTH_RECONNECTING;
}
/* Initiate a disconnection */
void bluetooth_disconnect(void) {
if (bluetooth_transport.disconnect) bluetooth_transport.disconnect();
}
/* Called when the BT device is reset. */
static void bluetooth_enter_reset(uint8_t reason) {
bt_state = BLUETOOTH_RESET;
bluetooth_enter_reset_kb(reason);
}
/* Enters discoverable state. Upon entering this state we perform the following actions:
* - change state to BLUETOOTH_PARING
* - set pairing indication
*/
static void bluetooth_enter_discoverable(uint8_t host_idx) {
bt_state = BLUETOOTH_PARING;
indicator_set(bt_state, host_idx);
bluetooth_enter_discoverable_kb(host_idx);
}
/*
* Enters reconnecting state. Upon entering this state we perform the following actions:
* - change state to RECONNECTING
* - set reconnect indication
*/
static void bluetooth_enter_reconnecting(uint8_t host_idx) {
bt_state = BLUETOOTH_RECONNECTING;
indicator_set(bt_state, host_idx);
bluetooth_enter_reconnecting_kb(host_idx);
}
/* Enters connected state. Upon entering this state we perform the following actions:
* - change state to CONNECTED
* - set connected indication
* - enable bluetooth NKRO is support
*/
static void bluetooth_enter_connected(uint8_t host_idx) {
bt_state = BLUETOOTH_CONNECTED;
indicator_set(bt_state, host_idx);
host_index = host_idx;
clear_keyboard();
/* Enable NKRO since it may be disabled in pin code entry */
#if defined(NKRO_ENABLE) && defined(BLUETOOTH_NKRO_ENABLE)
keymap_config.nkro = nkro.bluetooth;
#else
keymap_config.nkro = false;
#endif
bluetooth_enter_connected_kb(host_idx);
if (battery_is_empty()) indicator_battery_low_enable(true);
}
/* Enters disconnected state. Upon entering this state we perform the following actions:
* - change state to DISCONNECTED
* - set disconnected indication
*/
static void bluetooth_enter_disconnected(uint8_t host_idx) {
uint8_t previous_state = bt_state;
bt_state = BLUETOOTH_DISCONNECTED;
if (previous_state == BLUETOOTH_CONNECTED) {
lpm_timer_reset();
indicator_set(BLUETOOTH_SUSPEND, host_idx);
} else
indicator_set(bt_state, host_idx);
#ifndef DISABLE_REPORT_BUFFER
report_buffer_init();
#endif
retry = 0;
bluetooth_enter_disconnected_kb(host_idx);
indicator_battery_low_enable(false);
}
/* Enter pin code entry state. */
static void bluetooth_enter_pin_code_entry(void) {
#if defined(NKRO_ENABLE)
keymap_config.nkro = FALSE;
#endif
pincodeEntry = true;
bluetooth_enter_pin_code_entry_kb();
}
/* Exit pin code entry state. */
static void bluetooth_exit_pin_code_entry(void) {
#if defined(NKRO_ENABLE)
keymap_config.nkro = true;
#endif
pincodeEntry = false;
bluetooth_exit_pin_code_entry_kb();
}
__attribute__((weak)) void bluetooth_enter_reset_kb(uint8_t reason){};
__attribute__((weak)) void bluetooth_enter_discoverable_kb(uint8_t host_idx){};
__attribute__((weak)) void bluetooth_enter_reconnecting_kb(uint8_t host_idx){};
__attribute__((weak)) void bluetooth_enter_connected_kb(uint8_t host_idx){};
__attribute__((weak)) void bluetooth_enter_disconnected_kb(uint8_t host_idx){};
__attribute__((weak)) void bluetooth_enter_pin_code_entry_kb(void) {}
__attribute__((weak)) void bluetooth_exit_pin_code_entry_kb(void){};
/* */
static void bluetooth_hid_set_protocol(bool report_protocol) {
bluetooth_report_protocol = false;
}
uint8_t bluetooth_keyboard_leds(void) {
if (bt_state == BLUETOOTH_CONNECTED) {
return led_state;
}
return 0;
}
extern keymap_config_t keymap_config;
void bluetooth_send_keyboard(report_keyboard_t *report) {
if (bt_state == BLUETOOTH_PARING && !pincodeEntry) return;
if (bt_state == BLUETOOTH_CONNECTED || (bt_state == BLUETOOTH_PARING && pincodeEntry)) {
# if defined(NKRO_ENABLE)
if (bluetooth_report_protocol && keymap_config.nkro) {
if (bluetooth_transport.send_nkro) {
# ifndef DISABLE_REPORT_BUFFER
bool firstBuffer = false;
if (report_buffer_is_empty() && report_buffer_next_inverval() && report_buffer_get_retry() == 0) {
firstBuffer = true;
}
report_buffer_t report_buffer;
report_buffer.type = REPORT_TYPE_NKRO;
memcpy(&report_buffer.keyboard, report, sizeof(report_keyboard_t));
report_buffer_enqueue(&report_buffer);
if (firstBuffer) {
report_buffer_set_retry(0);
report_buffer_task();
}
# else
bluetooth_transport.send_nkro(&report->nkro.mods);
# endif
}
} else
# endif
{
//#ifdef KEYBOARD_SHARED_EP
if (bluetooth_transport.send_keyboard) {
# ifndef DISABLE_REPORT_BUFFER
if (report_buffer_is_empty() && report_buffer_next_inverval()) {
bluetooth_transport.send_keyboard(&report->mods);
report_buffer_update_timer();
} else {
report_buffer_t report_buffer;
report_buffer.type = REPORT_TYPE_KB;
memcpy(&report_buffer.keyboard, report, sizeof(report_keyboard_t));
report_buffer_enqueue(&report_buffer);
}
# else
bluetooth_transport.send_keyboard(&report->mods);
# endif
}
//#endif
}
} else if (bt_state != BLUETOOTH_RESET) {
bluetooth_connect();
}
}
void bluetooth_send_mouse(report_mouse_t *report) {
if (bt_state == BLUETOOTH_CONNECTED) {
if (bluetooth_transport.send_mouse) bluetooth_transport.send_mouse((uint8_t *)report);
} else if (bt_state != BLUETOOTH_RESET) {
bluetooth_connect();
}
}
void bluetooth_send_system(uint16_t data) {
if (bt_state == BLUETOOTH_CONNECTED) {
if (bluetooth_transport.send_system) bluetooth_transport.send_system(data);
} else if (bt_state != BLUETOOTH_RESET) {
bluetooth_connect();
}
}
void bluetooth_send_consumer(uint16_t data) {
if (bt_state == BLUETOOTH_CONNECTED) {
#ifndef DISABLE_REPORT_BUFFER
if (report_buffer_is_empty() && report_buffer_next_inverval()) {
if (bluetooth_transport.send_consumer) bluetooth_transport.send_consumer(data);
report_buffer_update_timer();
} else {
report_buffer_t report_buffer;
report_buffer.type = REPORT_TYPE_CONSUMER;
report_buffer.consumer = data;
report_buffer_enqueue(&report_buffer);
}
#else
if (bluetooth_transport.send_consumer) bluetooth_transport.send_consumer(data);
#endif
} else if (bt_state != BLUETOOTH_RESET) {
bluetooth_connect();
}
}
void bluetooth_send_extra(report_extra_t *report) {
if (report->report_id == REPORT_ID_SYSTEM) {
bluetooth_send_system(report->usage);
}
else if (report->report_id == REPORT_ID_CONSUMER) {
bluetooth_send_consumer(report->usage);
}
}
void bluetooth_low_battery_shutdown(void) {
indicator_battery_low_enable(false);
bluetooth_disconnect();
}
void bluetooth_event_queue_task(void) {
bluetooth_event_t event;
while (bluetooth_event_queue_dequeue(&event)) {
switch (event.evt_type) {
case EVT_RESET:
bluetooth_enter_reset(event.params.reason);
break;
case EVT_CONNECTED:
bluetooth_enter_connected(event.params.hostIndex);
break;
case EVT_DISCOVERABLE:
bluetooth_enter_discoverable(event.params.hostIndex);
break;
case EVT_RECONNECTING:
bluetooth_enter_reconnecting(event.params.hostIndex);
break;
case EVT_DISCONNECTED:
led_state = 0;
bluetooth_enter_disconnected(event.params.hostIndex);
break;
case EVT_PINCODE_ENTRY:
bluetooth_enter_pin_code_entry();
break;
case EVT_EXIT_PINCODE_ENTRY:
bluetooth_exit_pin_code_entry();
break;
case EVT_HID_INDICATOR:
led_state = event.params.led;
break;
case EVT_HID_SET_PROTOCOL:
bluetooth_hid_set_protocol(event.params.protocol);
break;
case EVT_CONECTION_INTERVAL:
report_buffer_set_inverval(event.params.interval);
break;
default:
break;
}
}
}
void bluetooth_task(void) {
bluetooth_transport.task();
bluetooth_event_queue_task();
#ifndef DISABLE_REPORT_BUFFER
report_buffer_task();
#endif
indicator_task();
battery_task();
lpm_task();
}
bluetooth_state_t bluetooth_get_state(void) {
return bt_state;
};
__attribute__((weak)) bool process_record_kb_bt(uint16_t keycode, keyrecord_t *record) { return true;};
bool process_record_kb(uint16_t keycode, keyrecord_t *record) {
if (get_transport() == TRANSPORT_BLUETOOTH) {
lpm_timer_reset();
}
process_record_kb_bt(keycode, record);
return process_record_user(keycode, record);
}
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