keychron_qmk_firmware/quantum/os_detection.c

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/* Copyright 2022 Ruslan Sayfutdinov (@KapJI)
*
* 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 "os_detection.h"
#include <string.h>
#include "timer.h"
#ifdef OS_DETECTION_KEYBOARD_RESET
# include "quantum.h"
#endif
#ifdef OS_DETECTION_DEBUG_ENABLE
# include "eeconfig.h"
# include "eeprom.h"
# include "print.h"
# define STORED_USB_SETUPS 50
# define EEPROM_USER_OFFSET (uint8_t*)EECONFIG_SIZE
static uint16_t usb_setups[STORED_USB_SETUPS];
#endif
#ifndef OS_DETECTION_DEBOUNCE
# define OS_DETECTION_DEBOUNCE 200
#endif
// 2s should always be more than enough (otherwise, you may have other issues)
#if OS_DETECTION_DEBOUNCE > 2000
# undef OS_DETECTION_DEBOUNCE
# define OS_DETECTION_DEBOUNCE 2000
#endif
struct setups_data_t {
uint8_t count;
uint8_t cnt_02;
uint8_t cnt_04;
uint8_t cnt_ff;
uint16_t last_wlength;
};
struct setups_data_t setups_data = {
.count = 0,
.cnt_02 = 0,
.cnt_04 = 0,
.cnt_ff = 0,
};
static volatile os_variant_t detected_os = OS_UNSURE;
static os_variant_t reported_os = OS_UNSURE;
// we need to be able to report OS_UNSURE if that is the stable result of the guesses
static bool first_report = true;
// to react on USB state changes
static volatile enum usb_device_state current_usb_device_state = USB_DEVICE_STATE_INIT;
static enum usb_device_state reported_usb_device_state = USB_DEVICE_STATE_INIT;
// the OS detection might be unstable for a while, "debounce" it
static volatile bool debouncing = false;
static volatile fast_timer_t last_time;
void os_detection_task(void) {
if (current_usb_device_state == USB_DEVICE_STATE_CONFIGURED) {
// debouncing goes for both the detected OS as well as the USB state
if (debouncing && timer_elapsed_fast(last_time) >= OS_DETECTION_DEBOUNCE) {
debouncing = false;
reported_usb_device_state = current_usb_device_state;
if (detected_os != reported_os || first_report) {
first_report = false;
reported_os = detected_os;
process_detected_host_os_kb(detected_os);
}
}
}
#ifdef OS_DETECTION_KEYBOARD_RESET
// resetting the keyboard on the USB device state change callback results in instability, so delegate that to this task
// only take action if it's been stable at least once, to avoid issues with some KVMs
else if (current_usb_device_state == USB_DEVICE_STATE_INIT && reported_usb_device_state != USB_DEVICE_STATE_INIT) {
soft_reset_keyboard();
}
#endif
}
__attribute__((weak)) bool process_detected_host_os_kb(os_variant_t detected_os) {
return process_detected_host_os_user(detected_os);
}
__attribute__((weak)) bool process_detected_host_os_user(os_variant_t detected_os) {
return true;
}
// Some collected sequences of wLength can be found in tests.
void process_wlength(const uint16_t w_length) {
#ifdef OS_DETECTION_DEBUG_ENABLE
usb_setups[setups_data.count] = w_length;
#endif
setups_data.count++;
setups_data.last_wlength = w_length;
if (w_length == 0x2) {
setups_data.cnt_02++;
} else if (w_length == 0x4) {
setups_data.cnt_04++;
} else if (w_length == 0xFF) {
setups_data.cnt_ff++;
}
// now try to make a guess
os_variant_t guessed = OS_UNSURE;
if (setups_data.count >= 3) {
if (setups_data.cnt_ff >= 2 && setups_data.cnt_04 >= 1) {
guessed = OS_WINDOWS;
} else if (setups_data.count == setups_data.cnt_ff) {
// Linux has 3 packets with 0xFF.
guessed = OS_LINUX;
} else if (setups_data.count == 5 && setups_data.last_wlength == 0xFF && setups_data.cnt_ff == 1 && setups_data.cnt_02 == 2) {
guessed = OS_MACOS;
} else if (setups_data.count == 4 && setups_data.cnt_ff == 0 && setups_data.cnt_02 == 2) {
// iOS and iPadOS don't have the last 0xFF packet.
guessed = OS_IOS;
} else if (setups_data.cnt_ff == 0 && setups_data.cnt_02 == 3 && setups_data.cnt_04 == 1) {
// This is actually PS5.
guessed = OS_LINUX;
} else if (setups_data.cnt_ff >= 1 && setups_data.cnt_02 == 0 && setups_data.cnt_04 == 0) {
// This is actually Quest 2 or Nintendo Switch.
guessed = OS_LINUX;
}
}
// only replace the guessed value if not unsure
if (guessed != OS_UNSURE) {
detected_os = guessed;
}
// whatever the result, debounce
last_time = timer_read_fast();
debouncing = true;
}
os_variant_t detected_host_os(void) {
return detected_os;
}
void erase_wlength_data(void) {
memset(&setups_data, 0, sizeof(setups_data));
detected_os = OS_UNSURE;
reported_os = OS_UNSURE;
current_usb_device_state = USB_DEVICE_STATE_INIT;
reported_usb_device_state = USB_DEVICE_STATE_INIT;
debouncing = false;
first_report = true;
}
void os_detection_notify_usb_device_state_change(enum usb_device_state usb_device_state) {
// treat this like any other source of instability
current_usb_device_state = usb_device_state;
last_time = timer_read_fast();
debouncing = true;
}
#if defined(SPLIT_KEYBOARD) && defined(SPLIT_DETECTED_OS_ENABLE)
void slave_update_detected_host_os(os_variant_t os) {
detected_os = os;
last_time = timer_read_fast();
debouncing = true;
}
#endif
#ifdef OS_DETECTION_DEBUG_ENABLE
void print_stored_setups(void) {
# ifdef CONSOLE_ENABLE
uint8_t cnt = eeprom_read_byte(EEPROM_USER_OFFSET);
for (uint16_t i = 0; i < cnt; ++i) {
uint16_t* addr = (uint16_t*)EEPROM_USER_OFFSET + i * sizeof(uint16_t) + sizeof(uint8_t);
xprintf("i: %d, wLength: 0x%02X\n", i, eeprom_read_word(addr));
}
# endif
}
void store_setups_in_eeprom(void) {
eeprom_update_byte(EEPROM_USER_OFFSET, setups_data.count);
for (uint16_t i = 0; i < setups_data.count; ++i) {
uint16_t* addr = (uint16_t*)EEPROM_USER_OFFSET + i * sizeof(uint16_t) + sizeof(uint8_t);
eeprom_update_word(addr, usb_setups[i]);
}
}
#endif // OS_DETECTION_DEBUG_ENABLE