// Pi1541 - A Commodore 1541 disk drive emulator // Copyright(C) 2018 Stephen White // // This file is part of Pi1541. // // Pi1541 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 3 of the License, or // (at your option) any later version. // // Pi1541 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 Pi1541. If not, see . #if not defined(EXPERIMENTALZERO) #include "Keyboard.h" #include #include #include "Timer.h" #include "debug.h" extern "C" { #include "uspi/devicenameservice.h" } #define REPEAT_RATE 8 #define REPEAT_DELAY 3 Keyboard* Keyboard::instance; void Keyboard::KeyPressedHandlerRaw(TUSBKeyboardDevice* device, unsigned char modifiers, const unsigned char RawKeys[6]) { // byte 0 - modifires // bit 0: left control // bit 1 : left shift // bit 2 : left alt // bit 3 : left GUI(Win / Apple / Meta key) // bit 4 : right control // bit 5 : right shift // bit 6 : right alt // bit 7 : right GUI // byte 1 - reserved // bytes 2-7 - represent the keys that are concurrently pressed (up to 6 in this case) // ranges from 0x04 to 0xE7 // If no keys are currently pressed then all 6 bytes should contain 0x00 // The key repeat delay and rate is purely a host function. //DEBUG_LOG("KeyPressedHandlerRaw: %x %d %d %d %d %d %d\r\n", modifiers, RawKeys[0], RawKeys[1], RawKeys[2], RawKeys[3], RawKeys[4], RawKeys[5]); Keyboard* keyboard = Keyboard::Instance(); bool anyDown = false; keyboard->keyStatusPrev[0] = keyboard->keyStatus[0]; keyboard->keyStatusPrev[1] = keyboard->keyStatus[1]; keyboard->keyStatus[0] = 0; keyboard->keyStatus[1] = 0; keyboard->modifier = modifiers; int index; for (index = 0; index < 6; ++index) { u8 rawKey = RawKeys[index]; if (rawKey >= 4) { int keyStatusIndex = (rawKey >= 64) ? 1 : 0; //DEBUG_LOG("%x %d\r\n", rawKey, keyStatusIndex); u64 keyBit = 1ULL << (u64)(rawKey & 0x3f); if (keyboard->keyStatusPrev[keyStatusIndex] & keyBit) { } else { keyboard->keyRepeatCount[rawKey] = 0; } keyboard->keyStatus[keyStatusIndex] |= keyBit; anyDown = true; } } if (anyDown) { // Only need the timer if a key was held down if (keyboard->timer == 0) { keyboard->timer = TimerStartKernelTimer(REPEAT_RATE, USBKeyboardDeviceTimerHandler, 0, device); //DEBUG_LOG("Timer started\r\n"); } } else { if (keyboard->timer != 0) { TimerCancelKernelTimer(keyboard->timer); keyboard->timer = 0; } } keyboard->updateCount++; } void Keyboard::USBKeyboardDeviceTimerHandler(unsigned hTimer, void *pParam, void *pContext) { Keyboard* keyboard = Keyboard::Instance(); bool anyDown = false; int keyStatusIndex; int keyIndex; for (keyStatusIndex = 0; keyStatusIndex < 2; ++keyStatusIndex) { for (keyIndex = 0; keyIndex < 64; ++keyIndex) { int keyCodeIndex = keyStatusIndex * 64 + keyIndex; if (keyboard->keyStatus[keyStatusIndex] & (1ULL << keyIndex)) { anyDown = true; keyboard->keyRepeatCount[keyCodeIndex]++; if (keyboard->keyRepeatCount[keyCodeIndex] > REPEAT_DELAY) keyboard->updateCount++; } else { keyboard->keyRepeatCount[keyCodeIndex] = 0; } } } keyboard->keyStatusPrev[0] = keyboard->keyStatus[0]; keyboard->keyStatusPrev[1] = keyboard->keyStatus[1]; if (keyboard->timer != 0) { TimerCancelKernelTimer(keyboard->timer); keyboard->timer = 0; } if (anyDown) // Only need the timer if a key was held down keyboard->timer = TimerStartKernelTimer(REPEAT_RATE, USBKeyboardDeviceTimerHandler, 0, pContext); } Keyboard::Keyboard() : modifier(0) , timer(0) , updateCount(0) , updateCountLastRead(-1) { instance = this; keyStatus[0] = 0; keyStatus[1] = 0; memset(keyRepeatCount, 0, sizeof(keyRepeatCount)); USPiKeyboardRegisterKeyStatusHandlerRaw(KeyPressedHandlerRaw); } #endif