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/* MAX3421E USB Host controller LCD/keyboard demonstration */
#include <Spi.h>
#include <Max3421e.h>
#include <Usb.h>
#include <Max_LCD.h>
/* keyboard data taken from configuration descriptor */
#define KBD_ADDR 1
#define KBD_EP 1
#define KBD_IF 0
#define EP_MAXPKTSIZE 8
#define EP_POLL 0x0a
/**/
//******************************************************************************
// macros to identify special charaters(other than Digits and Alphabets)
//******************************************************************************
#define BANG (0x1E)
#define AT (0x1F)
#define POUND (0x20)
#define DOLLAR (0x21)
#define PERCENT (0x22)
#define CAP (0x23)
#define AND (0x24)
#define STAR (0x25)
#define OPENBKT (0x26)
#define CLOSEBKT (0x27)
#define RETURN (0x28)
#define ESCAPE (0x29)
#define BACKSPACE (0x2A)
#define TAB (0x2B)
#define SPACE (0x2C)
#define HYPHEN (0x2D)
#define EQUAL (0x2E)
#define SQBKTOPEN (0x2F)
#define SQBKTCLOSE (0x30)
#define BACKSLASH (0x31)
#define SEMICOLON (0x33)
#define INVCOMMA (0x34)
#define TILDE (0x35)
#define COMMA (0x36)
#define PERIOD (0x37)
#define FRONTSLASH (0x38)
#define DELETE (0x4c)
/**/
/* Modifier masks. One for both modifiers */
#define SHIFT 0x22
#define CTRL 0x11
#define ALT 0x44
#define GUI 0x88
/**/
/* "Sticky keys */
#define CAPSLOCK (0x39)
#define NUMLOCK (0x53)
#define SCROLLLOCK (0x47)
/* Sticky keys output report bitmasks */
#define bmNUMLOCK 0x01
#define bmCAPSLOCK 0x02
#define bmSCROLLLOCK 0x04
/**/
EP_RECORD ep_record[ 2 ]; //endpoint record structure for the keyboard
char buf[ 8 ] = { 0 }; //keyboard buffer
char old_buf[ 8 ] = { 0 }; //last poll
/* Sticky key state */
bool numLock = false;
bool capsLock = false;
bool scrollLock = false;
bool line = false;
void setup();
void loop();
MAX3421E Max;
USB Usb;
Max_LCD LCD;
void setup() {
// set up the LCD's number of rows and columns:
LCD.begin(16, 2);
LCD.home();
Serial.begin( 9600 );
Serial.println("Start");
Max.powerOn();
delay( 200 );
}
void loop() {
Max.Task();
Usb.Task();
if( Usb.getUsbTaskState() == USB_STATE_CONFIGURING ) { //wait for addressing state
kbd_init();
Usb.setUsbTaskState( USB_STATE_RUNNING );
}
if( Usb.getUsbTaskState() == USB_STATE_RUNNING ) { //poll the keyboard
kbd_poll();
}
}
/* Initialize keyboard */
void kbd_init( void )
{
byte rcode = 0; //return code
/**/
/* Initialize data structures */
ep_record[ 0 ] = *( Usb.getDevTableEntry( 0,0 )); //copy endpoint 0 parameters
ep_record[ 1 ].MaxPktSize = EP_MAXPKTSIZE;
ep_record[ 1 ].Interval = EP_POLL;
ep_record[ 1 ].sndToggle = bmSNDTOG0;
ep_record[ 1 ].rcvToggle = bmRCVTOG0;
Usb.setDevTableEntry( 1, ep_record ); //plug kbd.endpoint parameters to devtable
/* Configure device */
rcode = Usb.setConf( KBD_ADDR, 0, 1 );
if( rcode ) {
Serial.print("Error attempting to configure keyboard. Return code :");
Serial.println( rcode, HEX );
while(1); //stop
}
/* Set boot protocol */
rcode = Usb.setProto( KBD_ADDR, 0, 0, 0 );
if( rcode ) {
Serial.print("Error attempting to configure boot protocol. Return code :");
Serial.println( rcode, HEX );
while( 1 ); //stop
}
LCD.print("Keyboard initialized");
delay(2000);
LCD.clear();
LCD.home();
Serial.println("Keyboard initialized");
}
/* Poll keyboard and print result */
/* buffer starts at position 2, 0 is modifier key state and 1 is irrelevant */
void kbd_poll( void )
{
char i;
static char leds = 0;
byte rcode = 0; //return code
/* poll keyboard */
rcode = Usb.inTransfer( KBD_ADDR, KBD_EP, 8, buf );
if( rcode != 0 ) {
return;
}//if ( rcode..
for( i = 2; i < 8; i++ ) {
if( buf[ i ] == 0 ) { //end of non-empty space
break;
}
if( buf_compare( buf[ i ] ) == false ) { //if new key
switch( buf[ i ] ) {
case CAPSLOCK:
capsLock =! capsLock;
leds = ( capsLock ) ? leds |= bmCAPSLOCK : leds &= ~bmCAPSLOCK; // set or clear bit 1 of LED report byte
break;
case NUMLOCK:
numLock =! numLock;
leds = ( numLock ) ? leds |= bmNUMLOCK : leds &= ~bmNUMLOCK; // set or clear bit 0 of LED report byte
break;
case SCROLLLOCK:
scrollLock =! scrollLock;
leds = ( scrollLock ) ? leds |= bmSCROLLLOCK : leds &= ~bmSCROLLLOCK; // set or clear bit 2 of LED report byte
break;
case DELETE:
LCD.clear();
LCD.home();
line = false;
break;
case RETURN:
line =! line;
LCD.setCursor( 0, line );
break;
default:
//LCD.print("A"); //output
LCD.print( HIDtoA( buf[ i ], buf[ 0 ] ));
Serial.print(HIDtoA( buf[ i ], buf[ 0 ] ));
break;
}//switch( buf[ i ...
rcode = Usb.setReport( KBD_ADDR, 0, 1, KBD_IF, 0x02, 0, &leds );
if( rcode ) {
Serial.print("Set report error: ");
Serial.println( rcode, HEX );
}//if( rcode ...
}//if( buf_compare( buf[ i ] ) == false ...
}//for( i = 2...
for( i = 2; i < 8; i++ ) { //copy new buffer to old
old_buf[ i ] = buf[ i ];
}
}
/* compare byte against bytes in old buffer */
bool buf_compare( byte data )
{
char i;
for( i = 2; i < 8; i++ ) {
if( old_buf[ i ] == data ) {
return( true );
}
}
return( false );
}
/* HID to ASCII converter. Takes HID keyboard scancode, returns ASCII code */
byte HIDtoA( byte HIDbyte, byte mod )
{
/* upper row of the keyboard, numbers and special symbols */
if( HIDbyte >= 0x1e && HIDbyte <= 0x27 ) {
if(( mod & SHIFT ) || numLock ) { //shift key pressed
switch( HIDbyte ) {
case BANG: return( 0x21 );
case AT: return( 0x40 );
case POUND: return( 0x23 );
case DOLLAR: return( 0x24 );
case PERCENT: return( 0x25 );
case CAP: return( 0x5e );
case AND: return( 0x26 );
case STAR: return( 0x2a );
case OPENBKT: return( 0x28 );
case CLOSEBKT: return( 0x29 );
}//switch( HIDbyte...
}
else { //numbers
if( HIDbyte == 0x27 ) { //zero
return( 0x30 );
}
else {
return( HIDbyte + 0x13 );
}
}//numbers
}//if( HIDbyte >= 0x1e && HIDbyte <= 0x27
/**/
/* number pad. Arrows are not supported */
if(( HIDbyte >= 0x59 && HIDbyte <= 0x61 ) && ( numLock == true )) { // numbers 1-9
return( HIDbyte - 0x28 );
}
if(( HIDbyte == 0x62 ) && ( numLock == true )) { //zero
return( 0x30 );
}
/* Letters a-z */
if( HIDbyte >= 0x04 && HIDbyte <= 0x1d ) {
if((( capsLock == true ) && ( mod & SHIFT ) == 0 ) || (( capsLock == false ) && ( mod & SHIFT ))) { //upper case
return( HIDbyte + 0x3d );
}
else { //lower case
return( HIDbyte + 0x5d );
}
}//if( HIDbyte >= 0x04 && HIDbyte <= 0x1d...
/* Other special symbols */
if( HIDbyte >= 0x2c && HIDbyte <= 0x38 ) {
switch( HIDbyte ) {
case SPACE: return( 0x20 );
case HYPHEN:
if(( mod & SHIFT ) == false ) {
return( 0x2d );
}
else {
return( 0x5f );
}
case EQUAL:
if(( mod & SHIFT ) == false ) {
return( 0x3d );
}
else {
return( 0x2b );
}
case SQBKTOPEN:
if(( mod & SHIFT ) == false ) {
return( 0x5b );
}
else {
return( 0x7b );
}
case SQBKTCLOSE:
if(( mod & SHIFT ) == false ) {
return( 0x5d );
}
else {
return( 0x7d );
}
case BACKSLASH:
if(( mod & SHIFT ) == false ) {
return( 0x5c );
}
else {
return( 0x7c );
}
case SEMICOLON:
if(( mod & SHIFT ) == false ) {
return( 0x3b );
}
else {
return( 0x3a );
}
case INVCOMMA:
if(( mod & SHIFT ) == false ) {
return( 0x27 );
}
else {
return( 0x22 );
}
case TILDE:
if(( mod & SHIFT ) == false ) {
return( 0x60 );
}
else {
return( 0x7e );
}
case COMMA:
if(( mod & SHIFT ) == false ) {
return( 0x2c );
}
else {
return( 0x3c );
}
case PERIOD:
if(( mod & SHIFT ) == false ) {
return( 0x2e );
}
else {
return( 0x3e );
}
case FRONTSLASH:
if(( mod & SHIFT ) == false ) {
return( 0x2f );
}
else {
return( 0x3f );
}
default:
break;
}//switch( HIDbyte..
}//if( HIDbye >= 0x2d && HIDbyte <= 0x38..
return( 0 );
}