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5150/arduino/kbd/kbd.cc

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// keyboard wiring diagram:
// https://www.minuszerodegrees.net/5150/misc/5150_keyboard_reset.jpg
#include "Arduino.h"
constexpr int kClockPin = PC6;
constexpr int kDataPin = PC4;
constexpr int kBitDelayMicros = 100;
constexpr int kCodeDelayMicros = 200;
constexpr int kKeyDelayMicros = 100;
namespace {
void sendCode(int code) {
// preconditions: clock and data pins are INPUT
while (digitalRead(kDataPin) == LOW || digitalRead(kClockPin) == LOW) {
// wait. we're not allowed to send
}
digitalWrite(kDataPin, LOW);
digitalWrite(kClockPin, LOW);
pinMode(kClockPin, OUTPUT);
delayMicroseconds(kBitDelayMicros);
pinMode(kClockPin, INPUT);
// delayMicroseconds(kDelayMicros);
for (int i = 0; i < 8; i++) {
if ((code & (1 << i)) == 0) {
// send a 0
pinMode(kDataPin, OUTPUT);
} // else do nothing, it's already a 1
delayMicroseconds(kBitDelayMicros);
pinMode(kClockPin, OUTPUT);
delayMicroseconds(kBitDelayMicros);
pinMode(kDataPin, INPUT);
pinMode(kClockPin, INPUT);
}
delayMicroseconds(kCodeDelayMicros);
}
enum State {
kReady,
kMaybeReset,
};
constexpr int kResetDelay = 19;
constexpr int kLetterCodes[] = {
0x1E, // 'a'
0x30, 0x2E, 0x20, 0x12, 0x21, 0x22, 0x23, 0x17, 0x24,
0x25, 0x26, 0x32, 0x31, 0x18, 0x19, 0x10, 0x13, 0x1F,
0x14, 0x16, 0x2F, 0x11, 0x2D, 0x15, 0x2c,
};
constexpr int kNumberCodes[] = {
0x0B, // '0'
0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0A,
};
void sendNormalCode(int code) {
sendCode(code);
sendCode(code | 0x80);
}
void sendShiftCode(int code) {
sendCode(42); // left shift
sendNormalCode(code);
sendCode(42 | 0x80);
}
void sendCtrlAltDel() {
sendCode(0x1d); // ctrl
sendCode(0x38); // alt
sendCode(0x53); // del
sendCode(0x53 | 0x80);
sendCode(0x38 | 0x80);
sendCode(0x1d | 0x80);
}
void sendCtrlBreak() {
sendCode(0x1d); // ctrl
sendCode(0x46); // break
sendCode(0x46 | 0x80);
sendCode(0x1d | 0x80);
}
} // namespace
void sendAsciiChar(int c) {
if (c >= 'a' && c <= 'z') {
return sendNormalCode(kLetterCodes[c - 'a']);
} else if (c >= '0' && c <= '9') {
return sendNormalCode(kNumberCodes[c - '0']);
} else if (c >= 'A' && c <= 'Z') {
return sendShiftCode(kLetterCodes[c - 'A']);
}
switch (c) {
case '-':
return sendNormalCode(12);
case '=':
return sendNormalCode(13);
case '[':
return sendNormalCode(26);
case ']':
return sendNormalCode(27);
case ';':
return sendNormalCode(39);
case '\'':
return sendNormalCode(40);
case ',':
return sendNormalCode(51);
case '.':
return sendNormalCode(52);
case '/':
return sendNormalCode(53);
case ' ':
return sendNormalCode(57);
case '\n':
return sendNormalCode(28);
case '!':
return sendShiftCode(2);
case '@':
return sendShiftCode(3);
case '#':
return sendShiftCode(4);
case '$':
return sendShiftCode(5);
case '%':
return sendShiftCode(6);
case '^':
return sendShiftCode(7);
case '&':
return sendShiftCode(8);
case '*':
return sendShiftCode(9);
case '(':
return sendShiftCode(10);
case ')':
return sendShiftCode(11);
case '_':
return sendShiftCode(12);
case '+':
return sendShiftCode(13);
case '{':
return sendShiftCode(26);
case '}':
return sendShiftCode(27);
case ':':
return sendShiftCode(39);
case '"':
return sendShiftCode(40);
case '<':
return sendShiftCode(51);
case '>':
return sendShiftCode(52);
case '?':
return sendShiftCode(53);
case 0:
return sendCtrlAltDel();
case 27:
return sendCtrlBreak(); // escape
}
}
void setupKbd() {
pinMode(kClockPin, INPUT);
pinMode(kDataPin, INPUT);
}
void checkKbdReset() {
static State state = kReady;
static int lastclocklow = 0;
int clockp = digitalRead(kClockPin);
if (state == State::kReady && clockp == LOW) {
state = State::kMaybeReset;
lastclocklow = millis();
} else if (state == State::kMaybeReset) {
if (clockp == HIGH && millis() - lastclocklow > kResetDelay) {
delay(1);
state = State::kReady;
sendCode(0xaa);
Serial.println("Reset!");
}
}
}
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