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arduino_universal_serial_ad.../Universal_Serial_Adapter/Universal_Serial_Adapter.ino
2013-03-10 21:38:46 -04:00

221 lines
5.7 KiB
C++

/*
Serial Adapter Project: Dynamic serial TTY passthroughs
by: Mike Crosson
Nusku Networks
date: 2013/03/09
license: CC-BY SA 3.0 - Creative commons share-alike 3.0
use this code however you'd like, just keep this license and
attribute.
This sketch currently only shows the four serial modes and
uses S1-S3 to select the current mode.
A trailing * after the mode indicates the current mode
Button Map:
S1: Up
S2: Select/Enter
S3: Down
Serial Modes:
Phone UART
DB9 Normal
DB9 Null Modem
Cisco console
*/
#include <ColorLCDShield.h>
#include "Project.h"
void setup() {
/* Set up the button pins as inputs, set pull-up resistor */
for (int i=0; i<3; i++) {
pinMode(buttonPins[i], INPUT);
digitalWrite(buttonPins[i], HIGH);
}
/* Initialize the LCD, set the contrast, clear the screen */
lcd.init(PHILIPS);
lcd.contrast(-63);
lcd.clear(BACKGROUND);
// Print the modes
// Uses enum trickery -- don't assign values to serialmode enum values
for (int i=0; i<modelinespeed; i++) {
printMode((serialmode)i);
}
// Print the Rx/Tx/Speed titles
printTitles();
// Setup defaults
setDefaults();
}
void loop() {
// Up
if (!digitalRead(buttonPins[2])) {
serialmode newMode = (serialmode)(selectedMode - 1);
if (newMode >= 0) {
setSelection(newMode);
}
// Wait for release before going on
while(!digitalRead(buttonPins[2]));
}
// Select / Enter
if (!digitalRead(buttonPins[1])) {
setMode(selectedMode);
// Wait for release before going on
while(!digitalRead(buttonPins[1]));
}
// Down
if (!digitalRead(buttonPins[0])) {
serialmode newMode = (serialmode)(selectedMode + 1);
if (newMode <= modelinespeed) {
setSelection(newMode);
}
// Wait for release before going on
while(!digitalRead(buttonPins[0]));
}
}
// Defaults
void setDefaults() {
setMode(phone);
setSelection(phone);
setLineSpeed(oneNineteenTwoK);
}
void setLineSpeed(linespeed aLineSpeed) {
currentLineSpeed = aLineSpeed;
bool sel = selectedMode == modelinespeed ? true : false;
printLineSpeed(aLineSpeed, sel);
}
void setMode(serialmode aMode) {
if (aMode != modelinespeed) {
serialmode previousMode = currentMode;
currentMode = aMode;
lcd.setStr(" ", xLoc(previousMode), yLoc(0), TEXT, BACKGROUND);
lcd.setStr("*", xLoc(currentMode), yLoc(0), TEXT, BACKGROUND);
}
}
void setSelection(serialmode aMode) {
serialmode previousSelection = selectedMode;
selectedMode = aMode;
int yLocOne = yLoc(1);
int xSelected = 0;
if (selectedMode != modelinespeed) {
xSelected = xLoc(selectedMode) + CHAR_HEIGHT;
}
int xPrevious = 0;
if (previousSelection != modelinespeed) {
xPrevious = xLoc(previousSelection) + CHAR_HEIGHT;
}
int previousLength = 0;
if (previousSelection != modelinespeed) {
previousLength = strlen(modeToText[previousSelection]) * CHAR_WIDTH;
}
int selectedLength = 0;
if (selectedMode != modelinespeed) {
selectedLength = strlen(modeToText[selectedMode]) * CHAR_WIDTH;
}
if (selectedMode != modelinespeed) {
lcd.setLine(xSelected, yLocOne, xSelected, yLocOne + selectedLength, HILIGHT);
}
else {
printLineSpeed(currentLineSpeed, true);
}
if (previousSelection != modelinespeed) {
lcd.setLine(xPrevious, yLocOne, xPrevious, yLocOne + previousLength, BACKGROUND);
}
else {
printLineSpeed(currentLineSpeed, false);
}
}
void printTitles() {
lcd.setStr(" RX Ln Spd Tx ", xLoc(5), 0, TEXT, BACKGROUND);
}
void printMode(serialmode aMode) {
lcd.setStr(modeToText[aMode], xLoc(aMode), yLoc(1), TEXT, BACKGROUND);
}
void printLineSpeed(linespeed aLineSpeed, bool selected) {
int xPosText = xLoc(6);
int yPosText = yLoc(5);
int xPosLine = xLoc(7);
int yPosLine = yLoc(5);
char* toPrint = linespeeds[aLineSpeed].description;
int length = strlen(toPrint);
lcd.setStr(" ", xPosText, yPosText, BACKGROUND, BACKGROUND);
lcd.setLine(xPosLine, yPosLine, xPosLine, yPosLine + 7 * CHAR_WIDTH, BACKGROUND);
lcd.setStr(toPrint, xPosText, yPosText, TEXT, BACKGROUND);
if (selected) {
lcd.setLine(xPosLine, yPosLine, xPosLine, yPosLine + length * CHAR_WIDTH, HILIGHT);
}
}
void printRx(bool show) {
int vertXPosStart = xLoc(6.25);
int vertYPosStart = yLoc(1.5);
int vertXPosEnd = xLoc(7.25);
int vertYPosEnd = yLoc(1.5);
int lftXPosStart = vertXPosEnd;
int lftYPosStart = vertYPosStart;
int lftXPosEnd = vertXPosStart + (CHAR_HEIGHT / 2);
int lftYPosEnd = vertYPosStart - CHAR_WIDTH;
int rtXPosStart = vertXPosEnd;
int rtYPosStart = vertYPosStart;
int rtXPosEnd = vertXPosStart + (CHAR_HEIGHT / 2);
int rtYPosEnd = vertYPosStart + CHAR_WIDTH;
int color = show ? EMERALD : BACKGROUND;
lcd.setLine(vertXPosStart, vertYPosStart, vertXPosEnd, vertYPosEnd, color);
lcd.setLine(lftXPosStart, lftYPosStart, lftXPosEnd, lftYPosEnd, color);
lcd.setLine(rtXPosStart, rtYPosStart, rtXPosEnd, rtYPosEnd, color);
}
void printTx(bool show) {
int vertXPosStart = xLoc(6.25);
int vertYPosStart = yLoc(13.5);
int vertXPosEnd = xLoc(7.25);
int vertYPosEnd = yLoc(13.5);
int lftXPosStart = vertXPosStart;
int lftYPosStart = vertYPosStart;
int lftXPosEnd = vertXPosStart + (CHAR_HEIGHT / 2);
int lftYPosEnd = vertYPosStart - CHAR_WIDTH;
int rtXPosStart = vertXPosStart;
int rtYPosStart = vertYPosStart;
int rtXPosEnd = vertXPosStart + (CHAR_HEIGHT / 2);
int rtYPosEnd = vertYPosStart + CHAR_WIDTH;
int color = show ? SKYBLUE : BACKGROUND;
lcd.setLine(vertXPosStart, vertYPosStart, vertXPosEnd, vertYPosEnd, color);
lcd.setLine(lftXPosStart, lftYPosStart, lftXPosEnd, lftYPosEnd, color);
lcd.setLine(rtXPosStart, rtYPosStart, rtXPosEnd, rtYPosEnd, color);
}