Delete unuse functions.

This commit is contained in:
梁鸿 2024-12-06 00:40:46 +08:00
parent d78bcd4638
commit 0f3e2187ab
12 changed files with 400 additions and 399 deletions

View File

@ -15,14 +15,14 @@ const config_t default_config = {
}, },
.screen_count = 1, .screen_count = 1,
.screen_index = 1, .screen_index = 1,
.os = OUTPUT_A_OS, // .os = OUTPUT_A_OS,
.pos = RIGHT, .pos = RIGHT,
.screensaver = { // .screensaver = {
.mode = SCREENSAVER_A_MODE, // .mode = SCREENSAVER_A_MODE,
.only_if_inactive = SCREENSAVER_A_ONLY_IF_INACTIVE, // .only_if_inactive = SCREENSAVER_A_ONLY_IF_INACTIVE,
.idle_time_us = SCREENSAVER_A_IDLE_TIME_SEC * 1000000, // .idle_time_us = SCREENSAVER_A_IDLE_TIME_SEC * 1000000,
.max_time_us = SCREENSAVER_A_MAX_TIME_SEC * 1000000, // .max_time_us = SCREENSAVER_A_MAX_TIME_SEC * 1000000,
} // }
}, },
.output[OUTPUT_B] = .output[OUTPUT_B] =
{ {
@ -35,14 +35,14 @@ const config_t default_config = {
}, },
.screen_count = 1, .screen_count = 1,
.screen_index = 1, .screen_index = 1,
.os = OUTPUT_B_OS, // .os = OUTPUT_B_OS,
.pos = LEFT, .pos = LEFT,
.screensaver = { // .screensaver = {
.mode = SCREENSAVER_B_MODE, // .mode = SCREENSAVER_B_MODE,
.only_if_inactive = SCREENSAVER_B_ONLY_IF_INACTIVE, // .only_if_inactive = SCREENSAVER_B_ONLY_IF_INACTIVE,
.idle_time_us = SCREENSAVER_B_IDLE_TIME_SEC * 1000000, // .idle_time_us = SCREENSAVER_B_IDLE_TIME_SEC * 1000000,
.max_time_us = SCREENSAVER_B_MAX_TIME_SEC * 1000000, // .max_time_us = SCREENSAVER_B_MAX_TIME_SEC * 1000000,
} // }
}, },
.enforce_ports = ENFORCE_PORTS, .enforce_ports = ENFORCE_PORTS,
.force_kbd_boot_protocol = ENFORCE_KEYBOARD_BOOT_PROTOCOL, .force_kbd_boot_protocol = ENFORCE_KEYBOARD_BOOT_PROTOCOL,

View File

@ -24,8 +24,8 @@
/* This is the main hotkey for switching outputs */ /* This is the main hotkey for switching outputs */
void output_toggle_hotkey_handler(device_t *state, hid_keyboard_report_t *report) { void output_toggle_hotkey_handler(device_t *state, hid_keyboard_report_t *report) {
/* If switching explicitly disabled, return immediately */ /* If switching explicitly disabled, return immediately */
if (state->switch_lock) // if (state->switch_lock)
return; // return;
state->active_output ^= 1; state->active_output ^= 1;
switch_output(state, state->active_output); switch_output(state, state->active_output);
@ -39,115 +39,115 @@ void _get_border_position(device_t *state, border_size_t *border) {
border->top = state->pointer_y; border->top = state->pointer_y;
} }
void _screensaver_set(device_t *state, uint8_t value) { // void _screensaver_set(device_t *state, uint8_t value) {
if (CURRENT_BOARD_IS_ACTIVE_OUTPUT) // if (CURRENT_BOARD_IS_ACTIVE_OUTPUT)
state->config.output[BOARD_ROLE].screensaver.mode = value; // state->config.output[BOARD_ROLE].screensaver.mode = value;
else // else
send_value(value, SCREENSAVER_MSG); // send_value(value, SCREENSAVER_MSG);
}; // };
/* This key combo records switch y top coordinate for different-size monitors */ // /* This key combo records switch y top coordinate for different-size monitors */
void screen_border_hotkey_handler(device_t *state, hid_keyboard_report_t *report) { // void screen_border_hotkey_handler(device_t *state, hid_keyboard_report_t *report) {
border_size_t *border = &state->config.output[state->active_output].border; // border_size_t *border = &state->config.output[state->active_output].border;
if (CURRENT_BOARD_IS_ACTIVE_OUTPUT) { // if (CURRENT_BOARD_IS_ACTIVE_OUTPUT) {
_get_border_position(state, border); // _get_border_position(state, border);
save_config(state); // save_config(state);
} // }
queue_packet((uint8_t *)border, SYNC_BORDERS_MSG, sizeof(border_size_t)); // queue_packet((uint8_t *)border, SYNC_BORDERS_MSG, sizeof(border_size_t));
}; // };
/* This key combo puts board A in firmware upgrade mode */ // /* This key combo puts board A in firmware upgrade mode */
void fw_upgrade_hotkey_handler_A(device_t *state, hid_keyboard_report_t *report) { // void fw_upgrade_hotkey_handler_A(device_t *state, hid_keyboard_report_t *report) {
reset_usb_boot(1 << PICO_DEFAULT_LED_PIN, 0); // reset_usb_boot(1 << PICO_DEFAULT_LED_PIN, 0);
}; // };
/* This key combo puts board B in firmware upgrade mode */ // /* This key combo puts board B in firmware upgrade mode */
void fw_upgrade_hotkey_handler_B(device_t *state, hid_keyboard_report_t *report) { // void fw_upgrade_hotkey_handler_B(device_t *state, hid_keyboard_report_t *report) {
send_value(ENABLE, FIRMWARE_UPGRADE_MSG); // send_value(ENABLE, FIRMWARE_UPGRADE_MSG);
}; // };
/* This key combo prevents mouse from switching outputs */ // /* This key combo prevents mouse from switching outputs */
void switchlock_hotkey_handler(device_t *state, hid_keyboard_report_t *report) { // void switchlock_hotkey_handler(device_t *state, hid_keyboard_report_t *report) {
state->switch_lock ^= 1; // state->switch_lock ^= 1;
send_value(state->switch_lock, SWITCH_LOCK_MSG); // send_value(state->switch_lock, SWITCH_LOCK_MSG);
} // }
/* This key combo toggles gaming mode */ // /* This key combo toggles gaming mode */
void toggle_gaming_mode_handler(device_t *state, hid_keyboard_report_t *report) { // void toggle_gaming_mode_handler(device_t *state, hid_keyboard_report_t *report) {
state->gaming_mode ^= 1; // state->gaming_mode ^= 1;
send_value(state->gaming_mode, GAMING_MODE_MSG); // send_value(state->gaming_mode, GAMING_MODE_MSG);
}; // };
/* This key combo locks both outputs simultaneously */ // /* This key combo locks both outputs simultaneously */
void screenlock_hotkey_handler(device_t *state, hid_keyboard_report_t *report) { // void screenlock_hotkey_handler(device_t *state, hid_keyboard_report_t *report) {
hid_keyboard_report_t lock_report = {0}, release_keys = {0}; // hid_keyboard_report_t lock_report = {0}, release_keys = {0};
for (int out = 0; out < NUM_SCREENS; out++) { // for (int out = 0; out < NUM_SCREENS; out++) {
switch (state->config.output[out].os) { // switch (state->config.output[out].os) {
case WINDOWS: // case WINDOWS:
case LINUX: // case LINUX:
lock_report.modifier = KEYBOARD_MODIFIER_LEFTGUI; // lock_report.modifier = KEYBOARD_MODIFIER_LEFTGUI;
lock_report.keycode[0] = HID_KEY_L; // lock_report.keycode[0] = HID_KEY_L;
break; // break;
case MACOS: // case MACOS:
lock_report.modifier = KEYBOARD_MODIFIER_LEFTCTRL | KEYBOARD_MODIFIER_LEFTGUI; // lock_report.modifier = KEYBOARD_MODIFIER_LEFTCTRL | KEYBOARD_MODIFIER_LEFTGUI;
lock_report.keycode[0] = HID_KEY_Q; // lock_report.keycode[0] = HID_KEY_Q;
break; // break;
default: // default:
break; // break;
} // }
if (BOARD_ROLE == out) { // if (BOARD_ROLE == out) {
queue_kbd_report(&lock_report, state); // queue_kbd_report(&lock_report, state);
release_all_keys(state); // release_all_keys(state);
} else { // } else {
queue_packet((uint8_t *)&lock_report, KEYBOARD_REPORT_MSG, KBD_REPORT_LENGTH); // queue_packet((uint8_t *)&lock_report, KEYBOARD_REPORT_MSG, KBD_REPORT_LENGTH);
queue_packet((uint8_t *)&release_keys, KEYBOARD_REPORT_MSG, KBD_REPORT_LENGTH); // queue_packet((uint8_t *)&release_keys, KEYBOARD_REPORT_MSG, KBD_REPORT_LENGTH);
} // }
} // }
} // }
/* When pressed, erases stored config in flash and loads defaults on both boards */ // /* When pressed, erases stored config in flash and loads defaults on both boards */
void wipe_config_hotkey_handler(device_t *state, hid_keyboard_report_t *report) { // void wipe_config_hotkey_handler(device_t *state, hid_keyboard_report_t *report) {
wipe_config(); // wipe_config();
load_config(state); // load_config(state);
send_value(ENABLE, WIPE_CONFIG_MSG); // send_value(ENABLE, WIPE_CONFIG_MSG);
} // }
/* When pressed, toggles the current mouse zoom mode state */ // /* When pressed, toggles the current mouse zoom mode state */
void mouse_zoom_hotkey_handler(device_t *state, hid_keyboard_report_t *report) { // void mouse_zoom_hotkey_handler(device_t *state, hid_keyboard_report_t *report) {
state->mouse_zoom ^= 1; // state->mouse_zoom ^= 1;
send_value(state->mouse_zoom, MOUSE_ZOOM_MSG); // send_value(state->mouse_zoom, MOUSE_ZOOM_MSG);
}; // };
/* When pressed, enables the screensaver on active output */ // /* When pressed, enables the screensaver on active output */
void enable_screensaver_hotkey_handler(device_t *state, hid_keyboard_report_t *report) { // void enable_screensaver_hotkey_handler(device_t *state, hid_keyboard_report_t *report) {
uint8_t desired_mode = state->config.output[BOARD_ROLE].screensaver.mode; // uint8_t desired_mode = state->config.output[BOARD_ROLE].screensaver.mode;
/* If the user explicitly asks for screensaver to be active, ignore config and turn it on */ // /* If the user explicitly asks for screensaver to be active, ignore config and turn it on */
if (desired_mode == DISABLED) // if (desired_mode == DISABLED)
desired_mode = PONG; // desired_mode = PONG;
_screensaver_set(state, desired_mode); // _screensaver_set(state, desired_mode);
} // }
/* When pressed, disables the screensaver on active output */ // /* When pressed, disables the screensaver on active output */
void disable_screensaver_hotkey_handler(device_t *state, hid_keyboard_report_t *report) { // void disable_screensaver_hotkey_handler(device_t *state, hid_keyboard_report_t *report) {
_screensaver_set(state, DISABLED); // _screensaver_set(state, DISABLED);
} // }
/* Put the device into a special configuration mode */ // /* Put the device into a special configuration mode */
void config_enable_hotkey_handler(device_t *state, hid_keyboard_report_t *report) { // void config_enable_hotkey_handler(device_t *state, hid_keyboard_report_t *report) {
/* If config mode is already active, skip this and reboot to return to normal mode */ // /* If config mode is already active, skip this and reboot to return to normal mode */
if (!state->config_mode_active) { // if (!state->config_mode_active) {
watchdog_hw->scratch[5] = MAGIC_WORD_1; // watchdog_hw->scratch[5] = MAGIC_WORD_1;
watchdog_hw->scratch[6] = MAGIC_WORD_2; // watchdog_hw->scratch[6] = MAGIC_WORD_2;
} // }
release_all_keys(state); // release_all_keys(state);
state->reboot_requested = true; // state->reboot_requested = true;
}; // };
/**==================================================== * /**==================================================== *
@ -181,15 +181,15 @@ void handle_output_select_msg(uart_packet_t *packet, device_t *state) {
restore_leds(state); restore_leds(state);
} }
/* On firmware upgrade message, reboot into the BOOTSEL fw upgrade mode */ // /* On firmware upgrade message, reboot into the BOOTSEL fw upgrade mode */
void handle_fw_upgrade_msg(uart_packet_t *packet, device_t *state) { // void handle_fw_upgrade_msg(uart_packet_t *packet, device_t *state) {
reset_usb_boot(1 << PICO_DEFAULT_LED_PIN, 0); // reset_usb_boot(1 << PICO_DEFAULT_LED_PIN, 0);
} // }
/* Comply with request to turn mouse zoom mode on/off */ // /* Comply with request to turn mouse zoom mode on/off */
void handle_mouse_zoom_msg(uart_packet_t *packet, device_t *state) { // void handle_mouse_zoom_msg(uart_packet_t *packet, device_t *state) {
state->mouse_zoom = packet->data[0]; // state->mouse_zoom = packet->data[0];
} // }
/* Process request to update keyboard LEDs */ /* Process request to update keyboard LEDs */
void handle_set_report_msg(uart_packet_t *packet, device_t *state) { void handle_set_report_msg(uart_packet_t *packet, device_t *state) {
@ -201,10 +201,10 @@ void handle_set_report_msg(uart_packet_t *packet, device_t *state) {
restore_leds(state); restore_leds(state);
} }
/* Process request to block mouse from switching, update internal state */ // /* Process request to block mouse from switching, update internal state */
void handle_switch_lock_msg(uart_packet_t *packet, device_t *state) { // void handle_switch_lock_msg(uart_packet_t *packet, device_t *state) {
state->switch_lock = packet->data[0]; // state->switch_lock = packet->data[0];
} // }
/* Handle border syncing message that lets the other device know about monitor height offset */ /* Handle border syncing message that lets the other device know about monitor height offset */
void handle_sync_borders_msg(uart_packet_t *packet, device_t *state) { void handle_sync_borders_msg(uart_packet_t *packet, device_t *state) {
@ -224,16 +224,16 @@ void handle_flash_led_msg(uart_packet_t *packet, device_t *state) {
blink_led(state); blink_led(state);
} }
/* When this message is received, wipe the local flash config */ // /* When this message is received, wipe the local flash config */
void handle_wipe_config_msg(uart_packet_t *packet, device_t *state) { // void handle_wipe_config_msg(uart_packet_t *packet, device_t *state) {
wipe_config(); // wipe_config();
load_config(state); // load_config(state);
} // }
/* Update screensaver state after received message */ // /* Update screensaver state after received message */
void handle_screensaver_msg(uart_packet_t *packet, device_t *state) { // void handle_screensaver_msg(uart_packet_t *packet, device_t *state) {
state->config.output[BOARD_ROLE].screensaver.mode = packet->data[0]; // state->config.output[BOARD_ROLE].screensaver.mode = packet->data[0];
} // }
/* Process consumer control message */ /* Process consumer control message */
void handle_consumer_control_msg(uart_packet_t *packet, device_t *state) { void handle_consumer_control_msg(uart_packet_t *packet, device_t *state) {
@ -255,10 +255,10 @@ void handle_proxy_msg(uart_packet_t *packet, device_t *state) {
queue_packet(&packet->data[1], (enum packet_type_e)packet->data[0], PACKET_DATA_LENGTH - 1); queue_packet(&packet->data[1], (enum packet_type_e)packet->data[0], PACKET_DATA_LENGTH - 1);
} }
/* Process relative mouse command */ // /* Process relative mouse command */
void handle_toggle_gaming_msg(uart_packet_t *packet, device_t *state) { // void handle_toggle_gaming_msg(uart_packet_t *packet, device_t *state) {
state->gaming_mode = packet->data[0]; // state->gaming_mode = packet->data[0];
} // }
/* Process api communication messages */ /* Process api communication messages */
void handle_api_msgs(uart_packet_t *packet, device_t *state) { void handle_api_msgs(uart_packet_t *packet, device_t *state) {
@ -320,7 +320,7 @@ void handle_response_byte_msg(uart_packet_t *packet, device_t *state) {
uint32_t address = packet->data32[0]; uint32_t address = packet->data32[0];
if (address != state->fw.address) { if (address != state->fw.address) {
state->fw.upgrade_in_progress = false; // state->fw.upgrade_in_progress = false;
state->fw.address = 0; state->fw.address = 0;
return; return;
} }
@ -346,16 +346,17 @@ void handle_response_byte_msg(uart_packet_t *packet, device_t *state) {
void handle_heartbeat_msg(uart_packet_t *packet, device_t *state) { void handle_heartbeat_msg(uart_packet_t *packet, device_t *state) {
uint16_t other_running_version = packet->data16[0]; uint16_t other_running_version = packet->data16[0];
if (state->fw.upgrade_in_progress) // if (state->fw.upgrade_in_progress)
return; // return;
/* If the other board isn't running a newer version, we are done */ /* If the other board isn't running a newer version, we are done */
if (other_running_version <= state->_running_fw.version) if (other_running_version <= state->_running_fw.version)
return; return;
/* It is? Ok, kick off the firmware upgrade */ /* It is? Ok, kick off the firmware upgrade */
state->fw = (fw_upgrade_state_t) { // state->fw = (fw_upgrade_state_t) {
.upgrade_in_progress = true, state->fw = () {
// .upgrade_in_progress = true,
.byte_done = true, .byte_done = true,
.address = 0, .address = 0,
.checksum = 0xffffffff, .checksum = 0xffffffff,

View File

@ -52,7 +52,7 @@
#define TOUCH 2 #define TOUCH 2
#define MOUSE_BOOT_REPORT_LEN 4 #define MOUSE_BOOT_REPORT_LEN 4
#define MOUSE_ZOOM_SCALING_FACTOR 2 // #define MOUSE_ZOOM_SCALING_FACTOR 2
#define NUM_SCREENS 2 // Will be more in the future #define NUM_SCREENS 2 // Will be more in the future
#define CONFIG_MODE_TIMEOUT 300000000 // 5 minutes into the future #define CONFIG_MODE_TIMEOUT 300000000 // 5 minutes into the future
@ -116,16 +116,16 @@ enum packet_type_e {
KEYBOARD_REPORT_MSG = 1, KEYBOARD_REPORT_MSG = 1,
MOUSE_REPORT_MSG = 2, MOUSE_REPORT_MSG = 2,
OUTPUT_SELECT_MSG = 3, OUTPUT_SELECT_MSG = 3,
FIRMWARE_UPGRADE_MSG = 4, // FIRMWARE_UPGRADE_MSG = 4,
MOUSE_ZOOM_MSG = 5, // MOUSE_ZOOM_MSG = 5,
KBD_SET_REPORT_MSG = 6, KBD_SET_REPORT_MSG = 6,
SWITCH_LOCK_MSG = 7, // SWITCH_LOCK_MSG = 7,
SYNC_BORDERS_MSG = 8, SYNC_BORDERS_MSG = 8,
FLASH_LED_MSG = 9, FLASH_LED_MSG = 9,
WIPE_CONFIG_MSG = 10, // WIPE_CONFIG_MSG = 10,
SCREENSAVER_MSG = 11, // SCREENSAVER_MSG = 11,
HEARTBEAT_MSG = 12, HEARTBEAT_MSG = 12,
GAMING_MODE_MSG = 13, // GAMING_MODE_MSG = 13,
CONSUMER_CONTROL_MSG = 14, CONSUMER_CONTROL_MSG = 14,
SYSTEM_CONTROL_MSG = 15, SYSTEM_CONTROL_MSG = 15,
SAVE_CONFIG_MSG = 18, SAVE_CONFIG_MSG = 18,
@ -205,12 +205,12 @@ enum screen_pos_e {
MIDDLE = 3, MIDDLE = 3,
}; };
enum screensaver_mode_e { // enum screensaver_mode_e {
DISABLED = 0, // DISABLED = 0,
PONG = 1, // PONG = 1,
JITTER = 2, // JITTER = 2,
MAX_SS_VAL = JITTER, // MAX_SS_VAL = JITTER,
}; // };
#define ITF_NUM_HID 0 #define ITF_NUM_HID 0
#define ITF_NUM_HID_REL_M 1 #define ITF_NUM_HID_REL_M 1
@ -223,13 +223,13 @@ typedef struct {
// height // height
} border_size_t; } border_size_t;
/* Define screensaver parameters */ // /* Define screensaver parameters */
typedef struct { // typedef struct {
uint8_t mode; // uint8_t mode;
uint8_t only_if_inactive; // uint8_t only_if_inactive;
uint64_t idle_time_us; // uint64_t idle_time_us;
uint64_t max_time_us; // uint64_t max_time_us;
} screensaver_t; // } screensaver_t;
/* Define output parameters */ /* Define output parameters */
typedef struct { typedef struct {
@ -242,7 +242,7 @@ typedef struct {
uint8_t os; // Operating system on this output uint8_t os; // Operating system on this output
uint8_t pos; // Screen position on this output uint8_t pos; // Screen position on this output
uint8_t mouse_park_pos; // Where the mouse goes after switch uint8_t mouse_park_pos; // Where the mouse goes after switch
screensaver_t screensaver; // Screensaver parameters for this output // screensaver_t screensaver; // Screensaver parameters for this output
} output_t; } output_t;
/* Data structure defining how configuration is stored */ /* Data structure defining how configuration is stored */
@ -372,13 +372,13 @@ typedef struct {
typedef enum { IDLE, READING_PACKET, PROCESSING_PACKET } receiver_state_t; typedef enum { IDLE, READING_PACKET, PROCESSING_PACKET } receiver_state_t;
typedef struct { // typedef struct {
uint32_t address; // Address we're sending to the other box // uint32_t address; // Address we're sending to the other box
uint32_t checksum; // uint32_t checksum;
uint16_t version; // uint16_t version;
bool byte_done; // Has the byte been successfully transferred // bool byte_done; // Has the byte been successfully transferred
bool upgrade_in_progress; // True if firmware transfer from the other box is in progress // bool upgrade_in_progress; // True if firmware transfer from the other box is in progress
} fw_upgrade_state_t; // } fw_upgrade_state_t;
typedef struct { typedef struct {
uint8_t kbd_dev_addr; // Address of the keyboard device uint8_t kbd_dev_addr; // Address of the keyboard device
@ -410,7 +410,7 @@ typedef struct {
uint32_t dma_tx_channel; // DMA TX channel we're using to send uint32_t dma_tx_channel; // DMA TX channel we're using to send
/* Firmware */ /* Firmware */
fw_upgrade_state_t fw; // State of the firmware upgrader // fw_upgrade_state_t fw; // State of the firmware upgrader
firmware_metadata_t _running_fw; // RAM copy of running fw metadata firmware_metadata_t _running_fw; // RAM copy of running fw metadata
bool reboot_requested; // If set, stop updating watchdog bool reboot_requested; // If set, stop updating watchdog
uint64_t config_mode_timer; // Counts how long are we to remain in config mode uint64_t config_mode_timer; // Counts how long are we to remain in config mode
@ -422,11 +422,11 @@ typedef struct {
bool keyboard_connected; // True when our keyboard is connected locally bool keyboard_connected; // True when our keyboard is connected locally
/* Feature flags */ /* Feature flags */
bool mouse_zoom; // True when "mouse zoom" is enabled // bool mouse_zoom; // True when "mouse zoom" is enabled
bool switch_lock; // True when device is prevented from switching // bool switch_lock; // True when device is prevented from switching
bool onboard_led_state; // True when LED is ON bool onboard_led_state; // True when LED is ON
bool relative_mouse; // True when relative mouse mode is used bool relative_mouse; // True when relative mouse mode is used
bool gaming_mode; // True when gaming mode is on (relative passthru + lock) // bool gaming_mode; // True when gaming mode is on (relative passthru + lock)
bool config_mode_active; // True when config mode is active bool config_mode_active; // True when config mode is active
bool digitizer_active; // True when digitizer Win/Mac workaround is active bool digitizer_active; // True when digitizer Win/Mac workaround is active
@ -509,8 +509,8 @@ void usb_device_task(device_t *);
void kick_watchdog_task(device_t *); void kick_watchdog_task(device_t *);
void usb_host_task(device_t *); void usb_host_task(device_t *);
void packet_receiver_task(device_t *); void packet_receiver_task(device_t *);
void screensaver_task(device_t *); // void screensaver_task(device_t *);
void firmware_upgrade_task(device_t *); // void firmware_upgrade_task(device_t *);
void heartbeat_output_task(device_t *); void heartbeat_output_task(device_t *);
void led_blinking_task(device_t *); void led_blinking_task(device_t *);
@ -519,7 +519,7 @@ void task_scheduler(device_t *, task_t *);
/********* Configuration **********/ /********* Configuration **********/
void load_config(device_t *); void load_config(device_t *);
void save_config(device_t *); void save_config(device_t *);
void wipe_config(void); // void wipe_config(void);
void reset_config_timer(device_t *); void reset_config_timer(device_t *);
extern const field_map_t api_field_map[]; extern const field_map_t api_field_map[];
@ -531,30 +531,30 @@ void queue_cfg_packet(uart_packet_t *, device_t *);
/********* Handlers **********/ /********* Handlers **********/
void output_toggle_hotkey_handler(device_t *, hid_keyboard_report_t *); void output_toggle_hotkey_handler(device_t *, hid_keyboard_report_t *);
void screen_border_hotkey_handler(device_t *, hid_keyboard_report_t *); // void screen_border_hotkey_handler(device_t *, hid_keyboard_report_t *);
void fw_upgrade_hotkey_handler_A(device_t *, hid_keyboard_report_t *); // void fw_upgrade_hotkey_handler_A(device_t *, hid_keyboard_report_t *);
void fw_upgrade_hotkey_handler_B(device_t *, hid_keyboard_report_t *); // void fw_upgrade_hotkey_handler_B(device_t *, hid_keyboard_report_t *);
void mouse_zoom_hotkey_handler(device_t *, hid_keyboard_report_t *); // void mouse_zoom_hotkey_handler(device_t *, hid_keyboard_report_t *);
void all_keys_released_handler(device_t *); // void all_keys_released_handler(device_t *);
void switchlock_hotkey_handler(device_t *, hid_keyboard_report_t *); // void switchlock_hotkey_handler(device_t *, hid_keyboard_report_t *);
void toggle_gaming_mode_handler(device_t *, hid_keyboard_report_t *); // void toggle_gaming_mode_handler(device_t *, hid_keyboard_report_t *);
void screenlock_hotkey_handler(device_t *, hid_keyboard_report_t *); // void screenlock_hotkey_handler(device_t *, hid_keyboard_report_t *);
void output_config_hotkey_handler(device_t *, hid_keyboard_report_t *); // void output_config_hotkey_handler(device_t *, hid_keyboard_report_t *);
void wipe_config_hotkey_handler(device_t *, hid_keyboard_report_t *); // void wipe_config_hotkey_handler(device_t *, hid_keyboard_report_t *);
void config_enable_hotkey_handler(device_t *, hid_keyboard_report_t *); // void config_enable_hotkey_handler(device_t *, hid_keyboard_report_t *);
void enable_screensaver_hotkey_handler(device_t *, hid_keyboard_report_t *); // void enable_screensaver_hotkey_handler(device_t *, hid_keyboard_report_t *);
void disable_screensaver_hotkey_handler(device_t *, hid_keyboard_report_t *); // void disable_screensaver_hotkey_handler(device_t *, hid_keyboard_report_t *);
void handle_keyboard_uart_msg(uart_packet_t *, device_t *); void handle_keyboard_uart_msg(uart_packet_t *, device_t *);
void handle_mouse_abs_uart_msg(uart_packet_t *, device_t *); void handle_mouse_abs_uart_msg(uart_packet_t *, device_t *);
void handle_output_select_msg(uart_packet_t *, device_t *); void handle_output_select_msg(uart_packet_t *, device_t *);
void handle_mouse_zoom_msg(uart_packet_t *, device_t *); // void handle_mouse_zoom_msg(uart_packet_t *, device_t *);
void handle_set_report_msg(uart_packet_t *, device_t *); void handle_set_report_msg(uart_packet_t *, device_t *);
void handle_switch_lock_msg(uart_packet_t *, device_t *); // void handle_switch_lock_msg(uart_packet_t *, device_t *);
void handle_sync_borders_msg(uart_packet_t *, device_t *); void handle_sync_borders_msg(uart_packet_t *, device_t *);
void handle_flash_led_msg(uart_packet_t *, device_t *); void handle_flash_led_msg(uart_packet_t *, device_t *);
void handle_fw_upgrade_msg(uart_packet_t *, device_t *); // void handle_fw_upgrade_msg(uart_packet_t *, device_t *);
void handle_wipe_config_msg(uart_packet_t *, device_t *); // void handle_wipe_config_msg(uart_packet_t *, device_t *);
void handle_consumer_control_msg(uart_packet_t *, device_t *); void handle_consumer_control_msg(uart_packet_t *, device_t *);
void handle_read_config_msg(uart_packet_t *, device_t *); void handle_read_config_msg(uart_packet_t *, device_t *);
void handle_save_config_msg(uart_packet_t *, device_t *); void handle_save_config_msg(uart_packet_t *, device_t *);
@ -567,7 +567,7 @@ void handle_proxy_msg(uart_packet_t *, device_t *);
void handle_api_msgs(uart_packet_t *, device_t *); void handle_api_msgs(uart_packet_t *, device_t *);
void handle_api_read_all_msg(uart_packet_t *, device_t *); void handle_api_read_all_msg(uart_packet_t *, device_t *);
void handle_toggle_gaming_msg(uart_packet_t *, device_t *); void handle_toggle_gaming_msg(uart_packet_t *, device_t *);
void handle_screensaver_msg(uart_packet_t *, device_t *); // void handle_screensaver_msg(uart_packet_t *, device_t *);
void switch_output(device_t *, uint8_t); void switch_output(device_t *, uint8_t);

View File

@ -113,8 +113,8 @@
* *
**/ **/
#define SCREENSAVER_A_MODE DISABLED // #define SCREENSAVER_A_MODE DISABLED
#define SCREENSAVER_B_MODE DISABLED // #define SCREENSAVER_B_MODE DISABLED
/**================================================== * /**================================================== *
* *
@ -123,8 +123,8 @@
* *
**/ **/
#define SCREENSAVER_A_IDLE_TIME_SEC 240 // #define SCREENSAVER_A_IDLE_TIME_SEC 240
#define SCREENSAVER_B_IDLE_TIME_SEC 240 // #define SCREENSAVER_B_IDLE_TIME_SEC 240
/**================================================== * /**================================================== *
* *
@ -133,8 +133,8 @@
* *
**/ **/
#define SCREENSAVER_A_MAX_TIME_SEC 0 // #define SCREENSAVER_A_MAX_TIME_SEC 0
#define SCREENSAVER_B_MAX_TIME_SEC 0 // #define SCREENSAVER_B_MAX_TIME_SEC 0
/**================================================== * /**================================================== *
* *
@ -143,8 +143,8 @@
* *
**/ **/
#define SCREENSAVER_A_ONLY_IF_INACTIVE 0 // #define SCREENSAVER_A_ONLY_IF_INACTIVE 0
#define SCREENSAVER_B_ONLY_IF_INACTIVE 0 // #define SCREENSAVER_B_ONLY_IF_INACTIVE 0
/**================================================== * /**================================================== *
* ================ Output OS Config =============== * * ================ Output OS Config =============== *
@ -160,8 +160,8 @@
* *
* */ * */
#define OUTPUT_A_OS MACOS // #define OUTPUT_A_OS MACOS
#define OUTPUT_B_OS LINUX // #define OUTPUT_B_OS LINUX
/**================================================== * /**================================================== *

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@ -29,83 +29,83 @@ hotkey_combo_t hotkeys[] = {
.pass_to_os = false, .pass_to_os = false,
.action_handler = &output_toggle_hotkey_handler}, .action_handler = &output_toggle_hotkey_handler},
/* Pressing right ALT + right CTRL toggles the slow mouse mode */ // /* Pressing right ALT + right CTRL toggles the slow mouse mode */
{.modifier = KEYBOARD_MODIFIER_RIGHTALT | KEYBOARD_MODIFIER_RIGHTCTRL, // {.modifier = KEYBOARD_MODIFIER_RIGHTALT | KEYBOARD_MODIFIER_RIGHTCTRL,
.keys = {}, // .keys = {},
.key_count = 0, // .key_count = 0,
.pass_to_os = true, // .pass_to_os = true,
.acknowledge = true, // .acknowledge = true,
.action_handler = &mouse_zoom_hotkey_handler}, // .action_handler = &mouse_zoom_hotkey_handler},
/* Switch lock */ // /* Switch lock */
{.modifier = KEYBOARD_MODIFIER_RIGHTCTRL, // {.modifier = KEYBOARD_MODIFIER_RIGHTCTRL,
.keys = {HID_KEY_K}, // .keys = {HID_KEY_K},
.key_count = 1, // .key_count = 1,
.acknowledge = true, // .acknowledge = true,
.action_handler = &switchlock_hotkey_handler}, // .action_handler = &switchlock_hotkey_handler},
/* Screen lock */ // /* Screen lock */
{.modifier = KEYBOARD_MODIFIER_RIGHTCTRL, // {.modifier = KEYBOARD_MODIFIER_RIGHTCTRL,
.keys = {HID_KEY_L}, // .keys = {HID_KEY_L},
.key_count = 1, // .key_count = 1,
.acknowledge = true, // .acknowledge = true,
.action_handler = &screenlock_hotkey_handler}, // .action_handler = &screenlock_hotkey_handler},
/* Toggle gaming mode */ // /* Toggle gaming mode */
{.modifier = KEYBOARD_MODIFIER_LEFTCTRL | KEYBOARD_MODIFIER_RIGHTSHIFT, // {.modifier = KEYBOARD_MODIFIER_LEFTCTRL | KEYBOARD_MODIFIER_RIGHTSHIFT,
.keys = {HID_KEY_G}, // .keys = {HID_KEY_G},
.key_count = 1, // .key_count = 1,
.acknowledge = true, // .acknowledge = true,
.action_handler = &toggle_gaming_mode_handler}, // .action_handler = &toggle_gaming_mode_handler},
/* Enable screensaver for active output */ // /* Enable screensaver for active output */
{.modifier = KEYBOARD_MODIFIER_LEFTCTRL | KEYBOARD_MODIFIER_RIGHTSHIFT, // {.modifier = KEYBOARD_MODIFIER_LEFTCTRL | KEYBOARD_MODIFIER_RIGHTSHIFT,
.keys = {HID_KEY_S}, // .keys = {HID_KEY_S},
.key_count = 1, // .key_count = 1,
.acknowledge = true, // .acknowledge = true,
.action_handler = &enable_screensaver_hotkey_handler}, // .action_handler = &enable_screensaver_hotkey_handler},
/* Disable screensaver for active output */ // /* Disable screensaver for active output */
{.modifier = KEYBOARD_MODIFIER_LEFTCTRL | KEYBOARD_MODIFIER_RIGHTSHIFT, // {.modifier = KEYBOARD_MODIFIER_LEFTCTRL | KEYBOARD_MODIFIER_RIGHTSHIFT,
.keys = {HID_KEY_X}, // .keys = {HID_KEY_X},
.key_count = 1, // .key_count = 1,
.acknowledge = true, // .acknowledge = true,
.action_handler = &disable_screensaver_hotkey_handler}, // .action_handler = &disable_screensaver_hotkey_handler},
/* Erase stored config */ // /* Erase stored config */
{.modifier = KEYBOARD_MODIFIER_RIGHTSHIFT, // {.modifier = KEYBOARD_MODIFIER_RIGHTSHIFT,
.keys = {HID_KEY_F12, HID_KEY_D}, // .keys = {HID_KEY_F12, HID_KEY_D},
.key_count = 2, // .key_count = 2,
.acknowledge = true, // .acknowledge = true,
.action_handler = &wipe_config_hotkey_handler}, // .action_handler = &wipe_config_hotkey_handler},
/* Record switch y coordinate */ // /* Record switch y coordinate */
{.modifier = KEYBOARD_MODIFIER_RIGHTSHIFT, // {.modifier = KEYBOARD_MODIFIER_RIGHTSHIFT,
.keys = {HID_KEY_F12, HID_KEY_Y}, // .keys = {HID_KEY_F12, HID_KEY_Y},
.key_count = 2, // .key_count = 2,
.acknowledge = true, // .acknowledge = true,
.action_handler = &screen_border_hotkey_handler}, // .action_handler = &screen_border_hotkey_handler},
/* Switch to configuration mode */ // /* Switch to configuration mode */
{.modifier = KEYBOARD_MODIFIER_LEFTCTRL | KEYBOARD_MODIFIER_RIGHTSHIFT, // {.modifier = KEYBOARD_MODIFIER_LEFTCTRL | KEYBOARD_MODIFIER_RIGHTSHIFT,
.keys = {HID_KEY_C, HID_KEY_O}, // .keys = {HID_KEY_C, HID_KEY_O},
.key_count = 2, // .key_count = 2,
.acknowledge = true, // .acknowledge = true,
.action_handler = &config_enable_hotkey_handler}, // .action_handler = &config_enable_hotkey_handler},
/* Hold down left shift + right shift + F12 + A ==> firmware upgrade mode for board A (kbd) */ // /* Hold down left shift + right shift + F12 + A ==> firmware upgrade mode for board A (kbd) */
{.modifier = KEYBOARD_MODIFIER_RIGHTSHIFT | KEYBOARD_MODIFIER_LEFTSHIFT, // {.modifier = KEYBOARD_MODIFIER_RIGHTSHIFT | KEYBOARD_MODIFIER_LEFTSHIFT,
.keys = {HID_KEY_A}, // .keys = {HID_KEY_A},
.key_count = 1, // .key_count = 1,
.acknowledge = true, // .acknowledge = true,
.action_handler = &fw_upgrade_hotkey_handler_A}, // .action_handler = &fw_upgrade_hotkey_handler_A},
/* Hold down left shift + right shift + F12 + B ==> firmware upgrade mode for board B (mouse) */ // /* Hold down left shift + right shift + F12 + B ==> firmware upgrade mode for board B (mouse) */
{.modifier = KEYBOARD_MODIFIER_RIGHTSHIFT | KEYBOARD_MODIFIER_LEFTSHIFT, // {.modifier = KEYBOARD_MODIFIER_RIGHTSHIFT | KEYBOARD_MODIFIER_LEFTSHIFT,
.keys = {HID_KEY_B}, // .keys = {HID_KEY_B},
.key_count = 1, // .key_count = 1,
.acknowledge = true, // .acknowledge = true,
.action_handler = &fw_upgrade_hotkey_handler_B}}; // .action_handler = &fw_upgrade_hotkey_handler_B}};
/* ============================================================ * /* ============================================================ *
* Detect if any hotkeys were pressed * Detect if any hotkeys were pressed

View File

@ -60,8 +60,8 @@ void core1_main() {
[0] = {.exec = &usb_host_task, .frequency = _TOP()}, // .-> USB host task, needs to run as often as possible [0] = {.exec = &usb_host_task, .frequency = _TOP()}, // .-> USB host task, needs to run as often as possible
[1] = {.exec = &packet_receiver_task, .frequency = _TOP()}, // | Receive data over serial from the other board [1] = {.exec = &packet_receiver_task, .frequency = _TOP()}, // | Receive data over serial from the other board
[2] = {.exec = &led_blinking_task, .frequency = _HZ(30)}, // | Check if LED needs blinking [2] = {.exec = &led_blinking_task, .frequency = _HZ(30)}, // | Check if LED needs blinking
[3] = {.exec = &screensaver_task, .frequency = _HZ(120)}, // | Handle "screensaver" movements // [3] = {.exec = &screensaver_task, .frequency = _HZ(120)}, // | Handle "screensaver" movements
[4] = {.exec = &firmware_upgrade_task, .frequency = _HZ(4000)}, // | Send firmware to the other board if needed // [4] = {.exec = &firmware_upgrade_task, .frequency = _HZ(4000)}, // | Send firmware to the other board if needed
[5] = {.exec = &heartbeat_output_task, .frequency = _HZ(1)}, // | Output periodic heartbeats [5] = {.exec = &heartbeat_output_task, .frequency = _HZ(1)}, // | Output periodic heartbeats
}; // `----- then go back and repeat forever }; // `----- then go back and repeat forever
const int NUM_TASKS = ARRAY_SIZE(tasks_core1); const int NUM_TASKS = ARRAY_SIZE(tasks_core1);

View File

@ -67,9 +67,9 @@ void update_mouse_position(device_t *state, mouse_values_t *values) {
output_t *current = &state->config.output[state->active_output]; output_t *current = &state->config.output[state->active_output];
uint8_t reduce_speed = 0; uint8_t reduce_speed = 0;
/* Check if we are configured to move slowly */ // /* Check if we are configured to move slowly */
if (state->mouse_zoom) // if (state->mouse_zoom)
reduce_speed = MOUSE_ZOOM_SCALING_FACTOR; // reduce_speed = MOUSE_ZOOM_SCALING_FACTOR;
/* Calculate movement */ /* Calculate movement */
int offset_x = accelerate(values->move_x) * (current->speed_x >> reduce_speed); int offset_x = accelerate(values->move_x) * (current->speed_x >> reduce_speed);
@ -191,9 +191,9 @@ void check_screen_switch(const mouse_values_t *values, device_t *state) {
int direction = jump_left ? LEFT : RIGHT; int direction = jump_left ? LEFT : RIGHT;
/* No switching allowed if explicitly disabled or in gaming mode */ // /* No switching allowed if explicitly disabled or in gaming mode */
if (state->switch_lock || state->gaming_mode) // if (state->switch_lock)
return; // return;
/* No jump condition met == nothing to do, return */ /* No jump condition met == nothing to do, return */
if (!jump_left && !jump_right) if (!jump_left && !jump_right)
@ -252,12 +252,12 @@ mouse_report_t create_mouse_report(device_t *state, mouse_values_t *values) {
.mode = ABSOLUTE, .mode = ABSOLUTE,
}; };
/* Workaround for Windows multiple desktops */ // /* Workaround for Windows multiple desktops */
if (state->relative_mouse || state->gaming_mode) { // if (state->relative_mouse || state->gaming_mode) {
mouse_report.x = values->move_x; // mouse_report.x = values->move_x;
mouse_report.y = values->move_y; // mouse_report.y = values->move_y;
mouse_report.mode = RELATIVE; // mouse_report.mode = RELATIVE;
} // }
return mouse_report; return mouse_report;
} }

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@ -14,15 +14,15 @@ const field_map_t api_field_map[] = {
{ 13, false, INT32, 4, offsetof(device_t, config.output[0].speed_y) }, { 13, false, INT32, 4, offsetof(device_t, config.output[0].speed_y) },
{ 14, false, INT32, 4, offsetof(device_t, config.output[0].border.top) }, { 14, false, INT32, 4, offsetof(device_t, config.output[0].border.top) },
{ 15, false, INT32, 4, offsetof(device_t, config.output[0].border.bottom) }, { 15, false, INT32, 4, offsetof(device_t, config.output[0].border.bottom) },
{ 16, false, UINT8, 1, offsetof(device_t, config.output[0].os) }, // { 16, false, UINT8, 1, offsetof(device_t, config.output[0].os) },
{ 17, false, UINT8, 1, offsetof(device_t, config.output[0].pos) }, { 17, false, UINT8, 1, offsetof(device_t, config.output[0].pos) },
{ 18, false, UINT8, 1, offsetof(device_t, config.output[0].mouse_park_pos) }, { 18, false, UINT8, 1, offsetof(device_t, config.output[0].mouse_park_pos) },
{ 19, false, UINT8, 1, offsetof(device_t, config.output[0].screensaver.mode) }, // { 19, false, UINT8, 1, offsetof(device_t, config.output[0].screensaver.mode) },
{ 20, false, UINT8, 1, offsetof(device_t, config.output[0].screensaver.only_if_inactive) }, // { 20, false, UINT8, 1, offsetof(device_t, config.output[0].screensaver.only_if_inactive) },
/* Until we increase the payload size from 8 bytes, clamp to avoid exceeding the field size */ /* Until we increase the payload size from 8 bytes, clamp to avoid exceeding the field size */
{ 21, false, UINT64, 7, offsetof(device_t, config.output[0].screensaver.idle_time_us) }, // { 21, false, UINT64, 7, offsetof(device_t, config.output[0].screensaver.idle_time_us) },
{ 22, false, UINT64, 7, offsetof(device_t, config.output[0].screensaver.max_time_us) }, // { 22, false, UINT64, 7, offsetof(device_t, config.output[0].screensaver.max_time_us) },
/* Output B */ /* Output B */
{ 40, false, UINT32, 4, offsetof(device_t, config.output[1].number) }, { 40, false, UINT32, 4, offsetof(device_t, config.output[1].number) },
@ -31,13 +31,13 @@ const field_map_t api_field_map[] = {
{ 43, false, INT32, 4, offsetof(device_t, config.output[1].speed_y) }, { 43, false, INT32, 4, offsetof(device_t, config.output[1].speed_y) },
{ 44, false, INT32, 4, offsetof(device_t, config.output[1].border.top) }, { 44, false, INT32, 4, offsetof(device_t, config.output[1].border.top) },
{ 45, false, INT32, 4, offsetof(device_t, config.output[1].border.bottom) }, { 45, false, INT32, 4, offsetof(device_t, config.output[1].border.bottom) },
{ 46, false, UINT8, 1, offsetof(device_t, config.output[1].os) }, // { 46, false, UINT8, 1, offsetof(device_t, config.output[1].os) },
{ 47, false, UINT8, 1, offsetof(device_t, config.output[1].pos) }, { 47, false, UINT8, 1, offsetof(device_t, config.output[1].pos) },
{ 48, false, UINT8, 1, offsetof(device_t, config.output[1].mouse_park_pos) }, { 48, false, UINT8, 1, offsetof(device_t, config.output[1].mouse_park_pos) },
{ 49, false, UINT8, 1, offsetof(device_t, config.output[1].screensaver.mode) }, // { 49, false, UINT8, 1, offsetof(device_t, config.output[1].screensaver.mode) },
{ 50, false, UINT8, 1, offsetof(device_t, config.output[1].screensaver.only_if_inactive) }, // { 50, false, UINT8, 1, offsetof(device_t, config.output[1].screensaver.only_if_inactive) },
{ 51, false, UINT64, 7, offsetof(device_t, config.output[1].screensaver.idle_time_us) }, // { 51, false, UINT64, 7, offsetof(device_t, config.output[1].screensaver.idle_time_us) },
{ 52, false, UINT64, 7, offsetof(device_t, config.output[1].screensaver.max_time_us) }, // { 52, false, UINT64, 7, offsetof(device_t, config.output[1].screensaver.max_time_us) },
/* Common config */ /* Common config */
{ 70, false, UINT32, 4, offsetof(device_t, config.version) }, { 70, false, UINT32, 4, offsetof(device_t, config.version) },
@ -54,7 +54,7 @@ const field_map_t api_field_map[] = {
{ 79, true, UINT32, 4, offsetof(device_t, _running_fw.checksum) }, { 79, true, UINT32, 4, offsetof(device_t, _running_fw.checksum) },
{ 80, true, UINT8, 1, offsetof(device_t, keyboard_connected) }, { 80, true, UINT8, 1, offsetof(device_t, keyboard_connected) },
{ 81, true, UINT8, 1, offsetof(device_t, switch_lock) }, // { 81, true, UINT8, 1, offsetof(device_t, switch_lock) },
{ 82, true, UINT8, 1, offsetof(device_t, relative_mouse) }, { 82, true, UINT8, 1, offsetof(device_t, relative_mouse) },
}; };

View File

@ -81,7 +81,7 @@ int32_t tud_msc_write10_cb(uint8_t lun, uint32_t lba, uint32_t offset, uint8_t *
global_state.fw.checksum = 0xffffffff; global_state.fw.checksum = 0xffffffff;
/* Make sure nobody else touches the flash during this operation, otherwise we get empty pages */ /* Make sure nobody else touches the flash during this operation, otherwise we get empty pages */
global_state.fw.upgrade_in_progress = true; // global_state.fw.upgrade_in_progress = true;
} }
/* Update checksum continuously as blocks are being received */ /* Update checksum continuously as blocks are being received */

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@ -59,92 +59,92 @@ void usb_host_task(device_t *state) {
tuh_task(); tuh_task();
} }
mouse_report_t *screensaver_pong(device_t *state) { // mouse_report_t *screensaver_pong(device_t *state) {
static mouse_report_t report = {0}; // static mouse_report_t report = {0};
static int dx = 20, dy = 25; // static int dx = 20, dy = 25;
/* Check if we are bouncing off the walls and reverse direction in that case. */ // /* Check if we are bouncing off the walls and reverse direction in that case. */
if (report.x + dx < MIN_SCREEN_COORD || report.x + dx > MAX_SCREEN_COORD) // if (report.x + dx < MIN_SCREEN_COORD || report.x + dx > MAX_SCREEN_COORD)
dx = -dx; // dx = -dx;
if (report.y + dy < MIN_SCREEN_COORD || report.y + dy > MAX_SCREEN_COORD) // if (report.y + dy < MIN_SCREEN_COORD || report.y + dy > MAX_SCREEN_COORD)
dy = -dy; // dy = -dy;
report.x += dx; // report.x += dx;
report.y += dy; // report.y += dy;
return &report; // return &report;
} // }
mouse_report_t *screensaver_jitter(device_t *state) { // mouse_report_t *screensaver_jitter(device_t *state) {
const int16_t jitter_distance = 2; // const int16_t jitter_distance = 2;
static mouse_report_t report = { // static mouse_report_t report = {
.y = jitter_distance, // .y = jitter_distance,
.mode = RELATIVE, // .mode = RELATIVE,
}; // };
report.y = -report.y; // report.y = -report.y;
return &report; // return &report;
} // }
/* Have something fun and entertaining when idle. */ // /* Have something fun and entertaining when idle. */
void screensaver_task(device_t *state) { // void screensaver_task(device_t *state) {
const uint32_t delays[] = { // const uint32_t delays[] = {
0, /* DISABLED, unused index 0 */ // 0, /* DISABLED, unused index 0 */
5000, /* PONG, move mouse every 5 ms for a high framerate */ // 5000, /* PONG, move mouse every 5 ms for a high framerate */
10000000, /* JITTER, once every 10 sec is more than enough */ // 10000000, /* JITTER, once every 10 sec is more than enough */
}; // };
static int last_pointer_move = 0; // static int last_pointer_move = 0;
screensaver_t *screensaver = &state->config.output[BOARD_ROLE].screensaver; // screensaver_t *screensaver = &state->config.output[BOARD_ROLE].screensaver;
uint64_t inactivity_period = time_us_64() - state->last_activity[BOARD_ROLE]; // uint64_t inactivity_period = time_us_64() - state->last_activity[BOARD_ROLE];
/* If we're not enabled, nothing to do here. */ // /* If we're not enabled, nothing to do here. */
if (screensaver->mode == DISABLED) // if (screensaver->mode == DISABLED)
return; // return;
/* System is still not idle for long enough to activate or screensaver mode is not supported */ // /* System is still not idle for long enough to activate or screensaver mode is not supported */
if (inactivity_period < screensaver->idle_time_us || screensaver->mode > MAX_SS_VAL) // if (inactivity_period < screensaver->idle_time_us || screensaver->mode > MAX_SS_VAL)
return; // return;
/* We exceeded the maximum permitted screensaver runtime */ // /* We exceeded the maximum permitted screensaver runtime */
if (screensaver->max_time_us // if (screensaver->max_time_us
&& inactivity_period > (screensaver->max_time_us + screensaver->idle_time_us)) // && inactivity_period > (screensaver->max_time_us + screensaver->idle_time_us))
return; // return;
/* If we're the selected output and we can only run on inactive output, nothing to do here. */ // /* If we're the selected output and we can only run on inactive output, nothing to do here. */
if (screensaver->only_if_inactive && CURRENT_BOARD_IS_ACTIVE_OUTPUT) // if (screensaver->only_if_inactive && CURRENT_BOARD_IS_ACTIVE_OUTPUT)
return; // return;
/* We're active! Now check if it's time to move the cursor yet. */ // /* We're active! Now check if it's time to move the cursor yet. */
if (time_us_32() - last_pointer_move < delays[screensaver->mode]) // if (time_us_32() - last_pointer_move < delays[screensaver->mode])
return; // return;
mouse_report_t *report; // mouse_report_t *report;
switch (screensaver->mode) { // switch (screensaver->mode) {
case PONG: // case PONG:
report = screensaver_pong(state); // report = screensaver_pong(state);
break; // break;
case JITTER: // case JITTER:
report = screensaver_jitter(state); // report = screensaver_jitter(state);
break; // break;
default: // default:
return; // return;
} // }
/* Move mouse pointer */ // /* Move mouse pointer */
queue_mouse_report(report, state); // queue_mouse_report(report, state);
/* Update timer of the last pointer move */ // /* Update timer of the last pointer move */
last_pointer_move = time_us_32(); // last_pointer_move = time_us_32();
} // }
/* Periodically emit heartbeat packets */ /* Periodically emit heartbeat packets */
void heartbeat_output_task(device_t *state) { void heartbeat_output_task(device_t *state) {
/* If firmware upgrade is in progress, don't touch flash_cs */ /* If firmware upgrade is in progress, don't touch flash_cs */
if (state->fw.upgrade_in_progress) // if (state->fw.upgrade_in_progress)
return; // return;
if (state->config_mode_active) { if (state->config_mode_active) {
/* Leave config mode if timeout expired and user didn't click exit */ /* Leave config mode if timeout expired and user didn't click exit */
@ -191,40 +191,40 @@ void process_hid_queue_task(device_t *state) {
queue_try_remove(&state->hid_queue_out, &packet); queue_try_remove(&state->hid_queue_out, &packet);
} }
/* Task that handles copying firmware from the other device to ours */ // /* Task that handles copying firmware from the other device to ours */
void firmware_upgrade_task(device_t *state) { // void firmware_upgrade_task(device_t *state) {
if (!state->fw.upgrade_in_progress || !state->fw.byte_done) // if (!state->fw.upgrade_in_progress || !state->fw.byte_done)
return; // return;
if (queue_is_full(&state->uart_tx_queue)) // if (queue_is_full(&state->uart_tx_queue))
return; // return;
/* End condition, when reached the process is completed. */ // /* End condition, when reached the process is completed. */
if (state->fw.address > STAGING_IMAGE_SIZE) { // if (state->fw.address > STAGING_IMAGE_SIZE) {
state->fw.upgrade_in_progress = 0; // state->fw.upgrade_in_progress = 0;
state->fw.checksum = ~state->fw.checksum; // state->fw.checksum = ~state->fw.checksum;
/* Checksum mismatch, we wipe the stage 2 bootloader and rely on ROM recovery */ // /* Checksum mismatch, we wipe the stage 2 bootloader and rely on ROM recovery */
if(calculate_firmware_crc32() != state->fw.checksum) { // if(calculate_firmware_crc32() != state->fw.checksum) {
flash_range_erase((uint32_t)ADDR_FW_RUNNING - XIP_BASE, FLASH_SECTOR_SIZE); // flash_range_erase((uint32_t)ADDR_FW_RUNNING - XIP_BASE, FLASH_SECTOR_SIZE);
reset_usb_boot(1 << PICO_DEFAULT_LED_PIN, 0); // reset_usb_boot(1 << PICO_DEFAULT_LED_PIN, 0);
} // }
else { // else {
state->_running_fw = _firmware_metadata; // state->_running_fw = _firmware_metadata;
global_state.reboot_requested = true; // global_state.reboot_requested = true;
} // }
} // }
/* If we're on the last element of the current page, page is done - write it. */ // /* If we're on the last element of the current page, page is done - write it. */
if (TU_U32_BYTE0(state->fw.address) == 0x00) { // if (TU_U32_BYTE0(state->fw.address) == 0x00) {
uint32_t page_start_addr = (state->fw.address - 1) & 0xFFFFFF00; // uint32_t page_start_addr = (state->fw.address - 1) & 0xFFFFFF00;
write_flash_page((uint32_t)ADDR_FW_RUNNING + page_start_addr - XIP_BASE, state->page_buffer); // write_flash_page((uint32_t)ADDR_FW_RUNNING + page_start_addr - XIP_BASE, state->page_buffer);
} // }
request_byte(state, state->fw.address); // request_byte(state, state->fw.address);
} // }
void packet_receiver_task(device_t *state) { void packet_receiver_task(device_t *state) {
uint32_t current_pointer uint32_t current_pointer

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@ -71,17 +71,17 @@ const uart_handler_t uart_handler[] = {
{.type = OUTPUT_SELECT_MSG, .handler = handle_output_select_msg}, {.type = OUTPUT_SELECT_MSG, .handler = handle_output_select_msg},
/* Box control */ /* Box control */
{.type = MOUSE_ZOOM_MSG, .handler = handle_mouse_zoom_msg}, // {.type = MOUSE_ZOOM_MSG, .handler = handle_mouse_zoom_msg},
{.type = KBD_SET_REPORT_MSG, .handler = handle_set_report_msg}, {.type = KBD_SET_REPORT_MSG, .handler = handle_set_report_msg},
{.type = SWITCH_LOCK_MSG, .handler = handle_switch_lock_msg}, // {.type = SWITCH_LOCK_MSG, .handler = handle_switch_lock_msg},
{.type = SYNC_BORDERS_MSG, .handler = handle_sync_borders_msg}, {.type = SYNC_BORDERS_MSG, .handler = handle_sync_borders_msg},
{.type = FLASH_LED_MSG, .handler = handle_flash_led_msg}, {.type = FLASH_LED_MSG, .handler = handle_flash_led_msg},
{.type = GAMING_MODE_MSG, .handler = handle_toggle_gaming_msg}, // {.type = GAMING_MODE_MSG, .handler = handle_toggle_gaming_msg},
{.type = CONSUMER_CONTROL_MSG, .handler = handle_consumer_control_msg}, {.type = CONSUMER_CONTROL_MSG, .handler = handle_consumer_control_msg},
{.type = SCREENSAVER_MSG, .handler = handle_screensaver_msg}, // {.type = SCREENSAVER_MSG, .handler = handle_screensaver_msg},
/* Config */ /* Config */
{.type = WIPE_CONFIG_MSG, .handler = handle_wipe_config_msg}, // {.type = WIPE_CONFIG_MSG, .handler = handle_wipe_config_msg},
{.type = SAVE_CONFIG_MSG, .handler = handle_save_config_msg}, {.type = SAVE_CONFIG_MSG, .handler = handle_save_config_msg},
{.type = REBOOT_MSG, .handler = handle_reboot_msg}, {.type = REBOOT_MSG, .handler = handle_reboot_msg},
{.type = GET_VAL_MSG, .handler = handle_api_msgs}, {.type = GET_VAL_MSG, .handler = handle_api_msgs},
@ -91,7 +91,7 @@ const uart_handler_t uart_handler[] = {
/* Firmware */ /* Firmware */
{.type = REQUEST_BYTE_MSG, .handler = handle_request_byte_msg}, {.type = REQUEST_BYTE_MSG, .handler = handle_request_byte_msg},
{.type = RESPONSE_BYTE_MSG, .handler = handle_response_byte_msg}, {.type = RESPONSE_BYTE_MSG, .handler = handle_response_byte_msg},
{.type = FIRMWARE_UPGRADE_MSG, .handler = handle_fw_upgrade_msg}, // {.type = FIRMWARE_UPGRADE_MSG, .handler = handle_fw_upgrade_msg},
{.type = HEARTBEAT_MSG, .handler = handle_heartbeat_msg}, {.type = HEARTBEAT_MSG, .handler = handle_heartbeat_msg},
{.type = PROXY_PACKET_MSG, .handler = handle_proxy_msg}, {.type = PROXY_PACKET_MSG, .handler = handle_proxy_msg},

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@ -59,11 +59,11 @@ uint32_t calculate_firmware_crc32(void) {
* Flash and config functions * Flash and config functions
* ================================================== */ * ================================================== */
void wipe_config(void) { // void wipe_config(void) {
uint32_t ints = save_and_disable_interrupts(); // uint32_t ints = save_and_disable_interrupts();
flash_range_erase((uint32_t)ADDR_CONFIG - XIP_BASE, FLASH_SECTOR_SIZE); // flash_range_erase((uint32_t)ADDR_CONFIG - XIP_BASE, FLASH_SECTOR_SIZE);
restore_interrupts(ints); // restore_interrupts(ints);
} // }
void write_flash_page(uint32_t target_addr, uint8_t *buffer) { void write_flash_page(uint32_t target_addr, uint8_t *buffer) {
/* Start of sector == first 256-byte page in a 4096 byte block */ /* Start of sector == first 256-byte page in a 4096 byte block */
@ -195,9 +195,9 @@ bool validate_packet(uart_packet_t *packet) {
const enum packet_type_e ALLOWED_PACKETS[] = { const enum packet_type_e ALLOWED_PACKETS[] = {
FLASH_LED_MSG, FLASH_LED_MSG,
GET_VAL_MSG, GET_VAL_MSG,
GET_ALL_VALS_MSG, GET_ALL_VALS_MSG,
SET_VAL_MSG, SET_VAL_MSG,
WIPE_CONFIG_MSG, // WIPE_CONFIG_MSG,
SAVE_CONFIG_MSG, SAVE_CONFIG_MSG,
REBOOT_MSG, REBOOT_MSG,
PROXY_PACKET_MSG, PROXY_PACKET_MSG,