consul-vdx-term-keyboard-co.../terminal_keyboard_emulator.ino

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// Resources:
// [Consul 262.4 Converter] https://deskthority.net/viewtopic.php?t=26908
// [Consul 262.5 manual in CS] http://www.sapi.cz/prislusenstvi/c262-5.php#odkazp4
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#include <TimerOne.h>
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// pinout config
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const int pinData = 6; // out, host data
const int pinStatus = 7; // in, host status
const int clockPin = 5; // out, kbd clock
const int dataPin = 3; // in, kbd data
const int outPin = 4; // out, kbd led
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// constant config
const int slaveClockDivider = 8;
const int timerDelay = 520 / slaveClockDivider;
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// variables
volatile int slaveClockStep = 0;
char m[255];
volatile int data = 0;
int test = 0;
volatile int counter = 0;
int numbits = 10;
// MODS >>>
// [1] send debug scancode information to serial port
bool modConsoleLog = true;
// <<< MODS
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// ----------
// KBD Output
// ----------
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volatile long lastChange = 0;
volatile int x = 0;
volatile int dataWord = 0;
volatile int dataState = 0;
volatile int dataDelay = 0;
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volatile int packetDelay = 0;
volatile int packetTail = 0;
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volatile bool nextKeyReady = false;
volatile byte nextKey = 0;
void typeKey(byte key) {
nextKey = key;
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nextKeyReady = true;
//Serial.print("Typing key "); Serial.println((int) key);
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}
void sendKey(byte key) {
dataWord = key;
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dataState = 8;
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dataDelay = 0;
packetDelay = 0;
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packetTail = 15;
//Serial.print("Sending key "); Serial.println((int) key);
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}
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void onHostStatusChange() {
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long timeNow = millis();
long changeDiff = timeNow - lastChange;
lastChange = timeNow;
if (changeDiff >= 10 && nextKeyReady) {
nextKeyReady = false;
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sendKey(nextKey);
Timer1.start(); // synchronize with the host
slaveClockStep = 0;
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}
}
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void onHostClockCycle(void)
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{
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int dataBit = HIGH;
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if (packetDelay > 0) {
packetDelay--;
} else if (dataDelay > 0) {
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dataDelay--;
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dataBit = LOW;
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} else if (dataState > 0) {
int bitToSend = (dataWord >> (dataState - 1)) & 1;
dataBit = !bitToSend ? LOW : HIGH;
dataState--;
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} else if (packetTail > 0) {
packetTail--;
dataBit = LOW;
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} else {
}
digitalWrite(pinData, dataBit);
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}
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// ---------
// KBD Input
// ---------
const int receivingSteps = 16;
volatile int clockStep = 0;
volatile int receivingStep = 0;
volatile int receivingData = 0;
volatile int receivingBit = 0;
void onSlaveClockInterrupt() {
clockStep = (clockStep + 1) % 2;
int clockValue = (clockStep % 2) ? HIGH : LOW;
digitalWrite(clockPin, clockValue);
int dataBit = digitalRead(dataPin);
if (clockValue == LOW) {
if (receivingData == 0 && dataBit == LOW) {
receivingData = 1;
receivingStep = 0;
receivingBit = 0;
test = 0;
digitalWrite(outPin, HIGH);
} else if (receivingData == 1) {
receivingStep++;
digitalWrite(outPin, HIGH);
}
if (receivingData == 1 && test == 0) {
test = 1;
receivingBit += dataBit == HIGH ? 1 : 0;
if (receivingStep >= receivingSteps) {
if (counter <= 8) {
data = data >> 1;
if (receivingBit > receivingSteps / 2) {
bitSet(data, 7);
}
}
counter++;
receivingStep = 0;
receivingBit = 0;
digitalWrite(outPin, LOW);
if (counter >= numbits) {
receivingData = 0;
}
}
}
}
if (clockValue == HIGH && test == 1) {
test = 0;
}
}
void setupKeyMapping() {
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m[0] = 0;
m[223] = ' ';
// top letter row
m[246] = '\t';
m[142] = 'q';
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m[142+32] = 'Q';
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m[136] = 'w';
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m[136+32] = 'W';
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m[154] = 'e';
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m[154+32] = 'E';
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m[141] = 'r';
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m[141+32] = 'R';
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m[139] = 't';
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m[139+32] = 'T';
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m[134] = 'y';
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m[134+32] = 'Y';
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m[138] = 'u';
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m[138+32] = 'U';
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m[150] = 'i';
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m[150+32] = 'I';
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m[144] = 'o';
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m[144+32] = 'O';
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m[143] = 'p';
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m[143+32] = 'P';
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m[191] = '@';
m[164] = '[';
m[245] = 0x0A;
m[128] = 0x7F;
// middle letter row
/*
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
m[] = '';
/**/
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}
char translateKeyToChar(int key) {
if (sizeof(m) <= key) {
return 0;
}
return m[key];
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}
void printChar(char keyChar) {
Serial.print("'"); Serial.print(keyChar); Serial.print("' ("); Serial.print(int(keyChar)); Serial.println(")");
}
void processKbdByte(int data) {
int key = data;
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char keyChar = translateKeyToChar(key);
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if (modConsoleLog) {
Serial.print("Key: <"); Serial.print(int(key)); Serial.print("> ");
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Serial.print("Char: "); printChar(keyChar);
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}
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#ifdef KEYBOARD
Keyboard.press(keyChar);
delay(10);
Keyboard.release(keyChar);
#endif
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typeKey(keyChar);
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}
// ----------------------
// Input and Output Merge
// ----------------------
void onTimerInterrupt()
{
onSlaveClockInterrupt();
if (slaveClockStep == 0) {
onHostClockCycle();
}
slaveClockStep = (slaveClockStep + 1) % slaveClockDivider;
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}
// ----
// Main
// ----
void setup(void)
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{
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Serial.begin(9600);
setupKeyMapping();
pinMode(pinData, OUTPUT);
pinMode(dataPin, INPUT);
pinMode(outPin, OUTPUT);
pinMode(clockPin, OUTPUT);
pinMode(pinStatus, INPUT_PULLUP);
digitalWrite(pinData, HIGH);
digitalWrite(outPin, LOW);
attachInterrupt(digitalPinToInterrupt(pinStatus), onHostStatusChange, CHANGE);
Timer1.initialize(timerDelay);
Timer1.attachInterrupt(onTimerInterrupt);
Serial.println("Keyboard ready");
}
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void loop(void)
{
// type key from serial
if (!nextKeyReady && Serial.available() > 0) {
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long key = Serial.parseInt(SKIP_ALL);
if (key != 0) {
typeKey(key);
}
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}
/**/
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// type key from keyboard
if (counter >= numbits) {
processKbdByte(data);
data = B0;
counter = 0;
}
/**/
/*/ auto-type test
delay(500);
typeKey('B');
/**/
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}
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