#include #include #include #include #include "print.h" #include "debug.h" #include "timer.h" #include "util.h" #include "jump_bootloader.h" #include "usb_keyboard.h" #include "usb_mouse.h" #include "usb_extra.h" #include "usb_keycodes.h" #include "usb.h" #include "layer.h" #include "matrix_skel.h" #include "keymap_skel.h" #include "controller.h" #include "key_process.h" #define MOUSE_MOVE_UNIT 10 #define MOUSE_MOVE_ACCEL (mouse_repeat < 50 ? mouse_repeat/5 : 10) #ifndef MOUSE_DELAY_TIME # define MOUSE_DELAY_TIME 255 #endif #define MOUSE_DELAY_MS (MOUSE_DELAY_TIME >> (mouse_repeat < 5 ? mouse_repeat : 4)) // TODO: refactoring void proc_matrix(void) { static int mouse_repeat = 0; bool modified = false; uint8_t mouse_btn = 0; int8_t mouse_x = 0; int8_t mouse_y = 0; int8_t mouse_vwheel = 0; int8_t mouse_hwheel = 0; uint8_t fn_bits = 0; matrix_scan(); modified = matrix_is_modified(); if (modified) { if (debug_matrix) matrix_print(); #ifdef DEBUG_LED // LED flash for debug DEBUG_LED_CONFIG; DEBUG_LED_ON; #endif } if (matrix_has_ghost()) { // should send error? debug("matrix has ghost!!\n"); return; } usb_keyboard_swap_report(); usb_keyboard_clear_report(); for (int row = 0; row < matrix_rows(); row++) { for (int col = 0; col < matrix_cols(); col++) { if (!matrix_is_on(row, col)) continue; // TODO: clean code uint8_t code = layer_get_keycode(row, col); if (code == KB_NO) { // do nothing } else if (IS_MOD(code)) { usb_keyboard_add_mod(code); } else if (IS_FN(code)) { fn_bits |= FN_BIT(code); } else if (IS_MOUSE(code)) { if (code == MS_UP) mouse_y -= MOUSE_MOVE_UNIT + MOUSE_MOVE_ACCEL; if (code == MS_DOWN) mouse_y += MOUSE_MOVE_UNIT + MOUSE_MOVE_ACCEL; if (code == MS_LEFT) mouse_x -= MOUSE_MOVE_UNIT + MOUSE_MOVE_ACCEL; if (code == MS_RGHT) mouse_x += MOUSE_MOVE_UNIT + MOUSE_MOVE_ACCEL; if (code == MS_BTN1) mouse_btn |= BIT_BTN1; if (code == MS_BTN2) mouse_btn |= BIT_BTN2; if (code == MS_BTN3) mouse_btn |= BIT_BTN3; if (code == MS_BTN4) mouse_btn |= BIT_BTN4; if (code == MS_BTN5) mouse_btn |= BIT_BTN5; if (code == MS_WH_U) mouse_vwheel += 1; if (code == MS_WH_D) mouse_vwheel -= 1; if (code == MS_WH_L) mouse_hwheel -= 1; if (code == MS_WH_R) mouse_hwheel += 1; } // audio control & system control else if (code == KB_MUTE) { usb_extra_audio_send(AUDIO_MUTE); usb_extra_audio_send(0); _delay_ms(500); } else if (code == KB_VOLU) { usb_extra_audio_send(AUDIO_VOL_UP); usb_extra_audio_send(0); _delay_ms(100); } else if (code == KB_VOLD) { usb_extra_audio_send(AUDIO_VOL_DOWN); usb_extra_audio_send(0); _delay_ms(100); } else if (code == KB_PWR) { if (suspend && remote_wakeup) { usb_remote_wakeup(); } else { usb_extra_system_send(SYSTEM_POWER_DOWN); } _delay_ms(1000); } // normal keys else { usb_keyboard_add_key(code); } } } if (modified) { #ifdef DEBUG_LED // LED flash for debug DEBUG_LED_CONFIG; DEBUG_LED_OFF; #endif } layer_switching(fn_bits); // TODO: clean code // special mode for control, develop and debug if (keymap_is_special_mode(fn_bits)) { switch (usb_keyboard_get_key()) { case KB_H: // help print_enable = true; print("b: jump to bootloader\n"); print("d: toggle debug enable\n"); print("x: toggle matrix debug\n"); print("k: toggle keyboard debug\n"); print("m: toggle mouse debug\n"); print("p: toggle print enable\n"); print("v: print version\n"); print("t: print timer count\n"); print("s: print status\n"); print("`: toggle protcol(boot/report)\n"); #ifdef NKRO_ENABLE print("n: toggle NKRO\n"); #endif print("ESC: power down/wake up\n"); _delay_ms(500); print_enable = false; break; case KB_B: // bootloader usb_keyboard_clear_report(); usb_keyboard_send(); print_enable = true; print("jump to bootloader...\n"); _delay_ms(1000); jump_bootloader(); // not return break; case KB_D: // debug all toggle usb_keyboard_clear_report(); usb_keyboard_send(); debug_enable = !debug_enable; if (debug_enable) { print_enable = true; print("debug enabled.\n"); debug_matrix = true; debug_keyboard = true; debug_mouse = true; } else { print("debug disabled.\n"); print_enable = false; debug_matrix = false; debug_keyboard = false; debug_mouse = false; } _delay_ms(1000); break; case KB_X: // debug matrix toggle usb_keyboard_clear_report(); usb_keyboard_send(); debug_matrix = !debug_matrix; if (debug_matrix) print("debug matrix enabled.\n"); else print("debug matrix disabled.\n"); _delay_ms(1000); break; case KB_K: // debug keyboard toggle usb_keyboard_clear_report(); usb_keyboard_send(); debug_keyboard = !debug_keyboard; if (debug_keyboard) print("debug keyboard enabled.\n"); else print("debug keyboard disabled.\n"); _delay_ms(1000); break; case KB_M: // debug mouse toggle usb_keyboard_clear_report(); usb_keyboard_send(); debug_mouse = !debug_mouse; if (debug_mouse) print("debug mouse enabled.\n"); else print("debug mouse disabled.\n"); _delay_ms(1000); break; case KB_V: // print version & information usb_keyboard_clear_report(); usb_keyboard_send(); print_enable = true; print(STR(DESCRIPTION) "\n"); _delay_ms(1000); break; case KB_T: // print timer usb_keyboard_clear_report(); usb_keyboard_send(); print_enable = true; print("timer: "); phex16(timer_count); print("\n"); _delay_ms(500); break; case KB_P: // print toggle usb_keyboard_clear_report(); usb_keyboard_send(); if (print_enable) { print("print disabled.\n"); print_enable = false; } else { print_enable = true; print("print enabled.\n"); } _delay_ms(1000); break; case KB_S: usb_keyboard_clear_report(); usb_keyboard_send(); print("UDCON: "); phex(UDCON); print("\n"); print("UDIEN: "); phex(UDIEN); print("\n"); print("UDINT: "); phex(UDINT); print("\n"); print("usb_keyboard_leds:"); phex(usb_keyboard_leds); print("\n"); print("usb_keyboard_protocol:"); phex(usb_keyboard_protocol); print("\n"); print("usb_keyboard_idle_config:"); phex(usb_keyboard_idle_config); print("\n"); print("usb_keyboard_idle_count:"); phex(usb_keyboard_idle_count); print("\n"); print("mouse_protocol:"); phex(mouse_protocol); print("\n"); if (usb_keyboard_nkro) print("NKRO: enabled\n"); else print("NKRO: disabled\n"); _delay_ms(500); break; case KB_GRV: usb_keyboard_clear_report(); usb_keyboard_send(); usb_keyboard_protocol = !usb_keyboard_protocol; mouse_protocol = !mouse_protocol; print("keyboard protcol: "); if (usb_keyboard_protocol) print("report"); else print("boot"); print("\n"); print("mouse protcol: "); if (mouse_protocol) print("report"); else print("boot"); print("\n"); _delay_ms(1000); break; #ifdef NKRO_ENABLE case KB_N: usb_keyboard_clear_report(); usb_keyboard_send(); usb_keyboard_nkro = !usb_keyboard_nkro; if (usb_keyboard_nkro) print("NKRO: enabled\n"); else print("NKRO: disabled\n"); _delay_ms(1000); break; #endif case KB_ESC: usb_keyboard_clear_report(); usb_keyboard_send(); if (suspend && remote_wakeup) { usb_remote_wakeup(); } else { usb_extra_system_send(SYSTEM_POWER_DOWN); } _delay_ms(1000); break; } } // send mouse packet to host if (mouse_x || mouse_y || mouse_vwheel || mouse_hwheel || mouse_btn != mouse_buttons) { mouse_buttons = mouse_btn; if (mouse_x && mouse_y) usb_mouse_move(mouse_x*0.7, mouse_y*0.7, mouse_vwheel, mouse_hwheel); else usb_mouse_move(mouse_x, mouse_y, mouse_vwheel, mouse_hwheel); usb_mouse_print(mouse_x, mouse_y, mouse_vwheel, mouse_hwheel); // acceleration _delay_ms(MOUSE_DELAY_MS); mouse_repeat++; } else { mouse_repeat = 0; } // send key packet to host if (modified) { usb_keyboard_send(); } }