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Code Issues Releases Wiki Activity

Added bluetooth module

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This commit is contained in:
OlegStepanenko_noute 2016-03-22 21:25:36 +02:00
parent 033034df6b
commit a4836d69b1
9 changed files with 2517 additions and 753 deletions
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33
AVCLan_mini/AVCLan_BT.cpp Normal file
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@ -0,0 +1,33 @@
//--------------------------------------------------------------------------------
#include "AVCLan_BT.h"
#include <SoftwareSerial.h>
#include <avr/pgmspace.h>
//--------------------------------------------------------------------------------
SoftwareSerial mySerial(4, 3); // RX | TX
//--------------------------------------------------------------------------------
void AVCLanBT::begin()
//--------------------------------------------------------------------------------
{
mySerial.begin(9600);
mySerial.println("BlueTooth is ready");
}
//--------------------------------------------------------------------------------
void AVCLanBT::println( char* val )
//--------------------------------------------------------------------------------
{
mySerial.println( val );
mySerial.println( "\n\r" );
}
//--------------------------------------------------------------------------------
void AVCLanBT::print( const char* val )
//--------------------------------------------------------------------------------
{
mySerial.print( val );
}
AVCLanBT avclanBT;

28
AVCLan_mini/AVCLan_BT.h Normal file
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@ -0,0 +1,28 @@
/*
*/
#ifndef AVCLanBT_h
#define AVCLanBT_h
#include <avr/pgmspace.h>
#include "Arduino.h"
//--------------------------------------------------------------------------------
//--------------------------------------------------------------------------------
class AVCLanBT
{
public:
void begin (); // initialisation, obligatory method
void println( char*);
void print(const char*);
private:
};
extern AVCLanBT avclanBT;
#endif

28
AVCLan_mini/AVCLan_mini.ino
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@ -1,6 +1,7 @@
#include "AVCLanDrv.h"
#include "AVCLanHonda.h"
#include "AVCLan_BT.h"
#include "config.h"
//--------------------------------------------------------------------------------
@ -11,6 +12,9 @@
#define HONDA_DIS_ON sbi(LED_PORT, COMMUT_OUT);
#define HONDA_DIS_OFF cbi(LED_PORT, COMMUT_OUT);
static int MAX_ERROR_COUNT = 30;
byte errorID;
int error_count;
//--------------------------------------------------------------------------------
void setup()
//--------------------------------------------------------------------------------
@ -20,6 +24,11 @@ void setup()
avclan.begin();
avclanHonda.begin();
errorID = 0;
error_count = 0;
avclanBT.begin();
avclanBT.println("Start HONDA avclan.");
}
//--------------------------------------------------------------------------------
@ -43,10 +52,22 @@ void loop()
if ( INPUT_IS_SET ) {
byte res = avclan.readMessage();
if ( !res ) {
error_count = 0;
avclanHonda.getActionID();
if ( avclan.actionID != ACT_NONE ) {
avclanHonda.processAction( (AvcActionID)avclan.actionID );
}
} else {
if ( errorID == res ) error_count++;
else error_count = 1;
errorID = res;
if ( error_count > MAX_ERROR_COUNT ) {
error_count = 0;
avclanHonda.setHondaDis(true);
}
}
}
@ -60,6 +81,13 @@ void loop()
HONDA_DIS_OFF;
}
}
if ( !error_count && errorID ) {
char BUFFF[15];
sprintf(BUFFF, "Error: %d", errorID);
avclanBT.println( BUFFF );
delay(2000);
}
}

5
AVCLan_mini/config.h
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@ -29,10 +29,7 @@
#define LED_DDR DDRC
#define LED_PORT PORTC
#define LED_PIN PINC
//#define LED_OUT 5
// Commutate pin 11
#define COMMUT_OUT 1
#define COMMUT_OUT 0
// AZFM board activate

1023
AVC_LAN_logger/AVCLan_mini/AVCLanDrv.cpp
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146
AVC_LAN_logger/AVCLan_mini/AVCLanDrv.h
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@ -36,64 +36,54 @@
#define INPUT_IS_CLEAR (bit_is_clear(DATAIN_PIN, DATAIN))
#define OUTPUT_SET_1 (cbi(DATAOUT_PORT, DATAOUT));
#define OUTPUT_SET_0 (sbi(DATAOUT_PORT, DATAOUT));
#define AVC_OUT_EN;
#define AVC_OUT_DIS;
#define AVC_OUT_EN ;
#define AVC_OUT_DIS ;
#endif
#endif
#define AVC_NORMAL_BIT_LENGTH 0x4A // 37 * (F_CPU / 1000000L / 8)
#define AVC_BIT_1_HOLD_ON_LENGTH 0x28 // 20 uS * (F_CPU / 1000000L / 8)
#define AVC_BIT_0_HOLD_ON_LENGTH 0x40 // 32 uS * (F_CPU / 1000000L / 8)
//#define AVC_BIT_0_HOLD_ON_MIN_LENGTH 0x34 // 26 uS * (F_CPU / 1000000L / 8) Compare half way between a '1' (20 us) and a '0' (32 us ): 32 - (32 - 20) /2 = 26 us
#define AVC_BIT_0_HOLD_ON_MIN_LENGTH 0x3C // 30 uS * (F_CPU / 1000000L / 8) Compare half way between a '1' (20 us) and a '0' (32 us ): 32 - (32 - 20) /2 = 26 us
#define AVC_START_BIT_LENGTH 0x5D // 186 uS * (F_CPU / 1000000L / 32) , prescaler 32
#define AVC_START_BIT_HOLD_ON_LENGTH 0x54 // 168 uS * (F_CPU / 1000000L / 32) prescaler 32
#define AVC_START_BIT_HOLD_ON_MIN_LENGTH 0x16 // 44 uS * (F_CPU / 1000000L / 32) grater that AVC_NORMAL_BIT_LENGTH, prescaler 32
#define AVC_1U_LENGTH 0x02 // 1 uS * (F_CPU / 1000000L / 8)
#define AVC_NORMAL_BIT_LENGTH 0x4A // 37 * (F_CPU / 1000000L / 8)
#define AVC_BIT_1_HOLD_ON_LENGTH 0x28 // 20 uS * (F_CPU / 1000000L / 8)
#define AVC_BIT_0_HOLD_ON_LENGTH 0x40 // 32 uS * (F_CPU / 1000000L / 8)
//#define AVC_BIT_0_HOLD_ON_MIN_LENGTH 0x34 // 26 uS * (F_CPU / 1000000L / 8) Compare half way between a '1' (20 us) and a '0' (32 us ): 32 - (32 - 20) /2 = 26 us
#define AVC_BIT_0_HOLD_ON_MIN_LENGTH 0x3C // 30 uS * (F_CPU / 1000000L / 8) Compare half way between a '1' (20 us) and a '0' (32 us ): 32 - (32 - 20) /2 = 26 us
#define AVC_START_BIT_LENGTH 0x5D // 186 uS * (F_CPU / 1000000L / 32) , prescaler 32
#define AVC_START_BIT_HOLD_ON_LENGTH 0x54 // 168 uS * (F_CPU / 1000000L / 32) prescaler 32
#define AVC_START_BIT_HOLD_ON_MIN_LENGTH 0x16 // 44 uS * (F_CPU / 1000000L / 32) grater that AVC_NORMAL_BIT_LENGTH, prescaler 32
#define AVC_1U_LENGTH 0x02 // 1 uS * (F_CPU / 1000000L / 8)
#define AVC_MAXMSGLEN 32
#define AVC_CONTROL_FLAGS 0xF
#define AVC_MAXMSGLEN 32
#define AVC_CONTROL_FLAGS 0xF
typedef enum
{ // No this is not a mistake, broadcast = 0!
AVC_MSG_DIRECT = 1,
AVC_MSG_BROADCAST = 0
{ // No this is not a mistake, broadcast = 0!
AVC_MSG_DIRECT = 1,
AVC_MSG_BROADCAST = 0
} AvcTransmissionMode;
#define ACT_NONE 0 // no action
//#define EV_NONE 0 // no event
//typedef struct
//{
// byte actionID; // Action id
// byte dataSize; // message size (bytes)
// byte prefixSize; // prefix size
// byte prefix[6]; // prefix command (const value)
// byte commandSize; // prefix size
// byte command[4]; // message
//} AvcInMessageTable;
#define EV_NONE 0 // no event
typedef struct
{
byte actionID; // Action id
byte dataSize; // message size (bytes)
byte command; // message
} AvcInCmdTable;
byte actionID; // Action id
byte dataSize; // message size (bytes)
byte data[12]; // message
} AvcInMessageTable;
//typedef struct
//{
// byte actionID; // Action id
// byte dataSize; // message size (bytes)
// byte data[14]; // message
// word mask; // mask, set bit = 1 in not checked position (1<<5 or _BV(5) - datap[5] not checked)
//} AvcInMaskedMessageTable;
typedef struct
{
byte actionID; // Action id
byte dataSize; // message size (bytes)
byte data[14]; // message
word mask; // mask, set bit = 1 in not checked position (1<<5 or _BV(5) - datap[5] not checked)
} AvcInMaskedMessageTable;
//typedef struct
//{
// AvcTransmissionMode broadcast; // Transmission mode: normal (1) or broadcast (0).
// byte dataSize; // message size (bytes)
// byte data[14]; // message
//} AvcOutMessage;
typedef struct
{
AvcTransmissionMode broadcast; // Transmission mode: normal (1) or broadcast (0).
byte dataSize; // message size (bytes)
byte data[14]; // message
} AvcOutMessage;
#ifndef cbi
#define cbi(sfr, bit) (_SFR_BYTE(sfr) &= ~_BV(bit))
@ -102,42 +92,40 @@ typedef struct
#define sbi(sfr, bit) (_SFR_BYTE(sfr) |= _BV(bit))
#endif
class AVCLanDrv {
public:
bool broadcast;
word masterAddress;
word slaveAddress;
word deviceAddress;
word headAddress;
byte dataSize;
byte message[AVC_MAXMSGLEN];
// byte event;
byte actionID;
bool readonly;
void begin ();
byte readMessage (void);
// byte sendMessage (void);
// byte sendMessage (const AvcOutMessage*);
void printMessage (bool incoming);
bool isAvcBusFree (void);
// byte getActionID (const AvcInMaskedMessageTable messageTable[], byte mtSize);
// void loadMessage (const AvcOutMessage*);
private:
bool _parityBit;
word readBits (byte nbBits);
byte _readMessage (void);
// byte _sendMessage (void);
// void sendStartBit (void);
void send1BitWord (bool data);
// void send4BitWord (byte data);
// void send8BitWord (byte data);
// void send12BitWord (word data);
// bool readAcknowledge (void);
// bool handleAcknowledge (void);
class AVCLanDrv{
public:
bool broadcast;
word masterAddress;
word slaveAddress;
word deviceAddress;
word headAddress;
byte dataSize;
byte message[AVC_MAXMSGLEN];
byte event;
byte actionID;
bool readonly;
void begin ();
byte readMessage (void);
byte sendMessage (void);
byte sendMessage (AvcOutMessage*);
void printMessage (bool incoming);
bool isAvcBusFree (void);
byte getActionID (AvcInMessageTable messageTable[], byte mtSize);
byte getActionID (AvcInMaskedMessageTable messageTable[], byte mtSize);
void loadMessage (AvcOutMessage*);
private:
bool _parityBit;
word readBits (byte nbBits);
byte _readMessage (void);
byte _sendMessage (void);
void sendStartBit (void);
void send1BitWord (bool data);
void send4BitWord (byte data);
void send8BitWord (byte data);
void send12BitWord (word data);
bool readAcknowledge (void);
bool handleAcknowledge (void);
};
extern AVCLanDrv avclan;
#endif

227
AVC_LAN_logger/AVCLan_mini/BuffSerial.cpp
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@ -1,32 +1,28 @@
/*
BuffSerial.cpp v.01 - serial with transmit buffer library for Wiring
Created by Kochetkov Aleksey, 03.07.2009
BuffSerial.cpp - serial with transmit buffer library for Wiring
Created by Kochetkov Aleksey, 28.11.2009
Version 0.1.2
*/
//--------------------------------------------------------------------------------
#include <stdio.h>
#include "BuffSerial.h"
//--------------------------------------------------------------------------------
// serial init
//--------------------------------------------------------------------------------
void BuffSerial::begin(long speed)
{
//--------------------------------------------------------------------------------
void BuffSerial::begin(long speed){
#if defined(__AVR_ATmega8__)
UCSRB = _BV(RXCIE) | _BV(RXEN) | _BV(TXCIE) | _BV(TXEN); // enable rx, tx inerrputs
UBRRH = ((F_CPU / 16 + speed / 2) / speed - 1) >> 8; // usart speed
UBRRL = ((F_CPU / 16 + speed / 2) / speed - 1);
UCSRB = _BV(RXCIE) | _BV(RXEN) | _BV(TXCIE) | _BV(TXEN); // enable rx, tx inerrputs
UBRRH = ((F_CPU / 16 + speed / 2) / speed - 1) >> 8; // usart speed
UBRRL = ((F_CPU / 16 + speed / 2) / speed - 1);
#else
UCSR0B = (_BV(RXCIE0) | _BV(RXEN0) | _BV(TXCIE0) | _BV(TXEN0)); // enable rx, tx inerrputs
UBRR0H = ((F_CPU / 16 + speed / 2) / speed - 1) >> 8; // usart speed
UBRR0L = ((F_CPU / 16 + speed / 2) / speed - 1);
UCSR0B = (_BV(RXCIE0) | _BV(RXEN0) | _BV(TXCIE0) | _BV(TXEN0)); // enable rx, tx inerrputs
UBRR0H = ((F_CPU / 16 + speed / 2) / speed - 1) >> 8; // usart speed
UBRR0L = ((F_CPU / 16 + speed / 2) / speed - 1);
#endif
rxBegin = rxEnd = 0;
txBegin = txEnd = txOverflow = 0;
txFull = 0;
rxBegin = rxEnd = 0;
txBegin = txEnd = txOverflow = 0;
txFull = 0;
}
//--------------------------------------------------------------------------------
//USART Rx Complete
#if defined(__AVR_ATmega8__)
SIGNAL(SIG_UART_RECV)
@ -35,15 +31,13 @@ SIGNAL(USART_RX_vect)
#endif
{
#if defined(__AVR_ATmega8__)
bSerial.rxBuffer[bSerial.rxEnd] = UDR;
bSerial.rxBuffer[bSerial.rxEnd] = UDR;
#else
bSerial.rxBuffer[bSerial.rxEnd] = UDR0;
bSerial.rxBuffer[bSerial.rxEnd] = UDR0;
#endif
if (bSerial.rxEnd < RX_BUFF_SIZE) bSerial.rxEnd++;
if (bSerial.rxEnd < RX_BUFF_SIZE) bSerial.rxEnd++;
}
//--------------------------------------------------------------------------------
//--------------------------------------------------------------------------------
//USART Tx Complete
#if defined(__AVR_ATmega8__)
SIGNAL(SIG_UART_TRANS)
@ -51,153 +45,132 @@ SIGNAL(SIG_UART_TRANS)
SIGNAL(USART_TX_vect)
#endif
{
if (bSerial.txEnd != bSerial.txBegin || bSerial.txFull != 0) {
if (bSerial.txEnd != bSerial.txBegin || bSerial.txFull != 0){
#if defined(__AVR_ATmega8__)
UDR = bSerial.txBuffer[bSerial.txBegin]; // Send buffer
UDR = bSerial.txBuffer[bSerial.txBegin]; // Send buffer
#else
UDR0 = bSerial.txBuffer[bSerial.txBegin]; // Send buffer
UDR0 = bSerial.txBuffer[bSerial.txBegin]; // Send buffer
#endif
bSerial.txFull = 0;
bSerial.txBegin++;
if (bSerial.txBegin == TX_BUFF_SIZE) bSerial.txBegin = 0;
}
bSerial.txFull = 0;
bSerial.txBegin++;
if (bSerial.txBegin == TX_BUFF_SIZE) bSerial.txBegin = 0;
}
}
//--------------------------------------------------------------------------------
// send byte to serial or buffer if bisy
//--------------------------------------------------------------------------------
void BuffSerial::sendByte(uint8_t data)
//--------------------------------------------------------------------------------
{
if (txFull) {
txOverflow++;
} else {
uint8_t oldSREG = SREG;
cli();
void BuffSerial::sendByte(uint8_t data){
if (txFull){
txOverflow++;
}else{
uint8_t oldSREG = SREG;
cli();
#if defined(__AVR_ATmega8__)
if (txEnd != txBegin || (UCSRA & _BV(UDRE)) == 0) {
if (txEnd != txBegin || (UCSRA & _BV(UDRE)) == 0){
#else
if (txEnd != txBegin || (UCSR0A & _BV(UDRE0)) == 0) {
if (txEnd != txBegin || (UCSR0A & _BV(UDRE0)) == 0){
#endif
txBuffer[txEnd] = data;
txEnd++;
if (txEnd == TX_BUFF_SIZE) txEnd = 0;
if (txEnd == txBegin) txFull = 1; // buffer overflow
} else {
txBuffer[txEnd] = data;
txEnd++;
if (txEnd == TX_BUFF_SIZE) txEnd = 0;
if (txEnd == txBegin) txFull = 1; // buffer overflow
}else{
#if defined(__AVR_ATmega8__)
UDR = data;
UDR = data;
#else
UDR0 = data;
UDR0 = data;
#endif
}
SREG = oldSREG;
}
}
SREG = oldSREG;
}
}
// print string
//--------------------------------------------------------------------------------
void BuffSerial::print(const char *pBuf)
//--------------------------------------------------------------------------------
{
while (*pBuf) {
sendByte(*pBuf++);
}
void BuffSerial::print(const char *pBuf){
while (*pBuf) {
sendByte(*pBuf++);
}
}
//--------------------------------------------------------------------------------
void BuffSerial::print(const char pBuf)
//--------------------------------------------------------------------------------
{
sendByte(pBuf);
void BuffSerial::print(const char pBuf){
sendByte(pBuf);
}
//--------------------------------------------------------------------------------
void BuffSerial::println(const char *pBuf)
//--------------------------------------------------------------------------------
{
print(pBuf);
println();
// print string from flash
void BuffSerial::print_p(const char *pBuf){
char c;
while ((c = pgm_read_byte_near( pBuf++ ))) {
sendByte(c);
}
}
//--------------------------------------------------------------------------------
void BuffSerial::println(const char pBuf)
//--------------------------------------------------------------------------------
{
print(pBuf);
println();
void BuffSerial::println(const char *pBuf){
print(pBuf);
println();
}
//--------------------------------------------------------------------------------
void BuffSerial::println(void)
//--------------------------------------------------------------------------------
{
print("\r\n");
void BuffSerial::println(const char pBuf){
print(pBuf);
println();
}
//--------------------------------------------------------------------------------
void BuffSerial::printHex4(uint8_t data)
//--------------------------------------------------------------------------------
{
uint8_t c = data & 0x0f;
c += c < 10 ? '0' : 'A' - 10 ;
sendByte(c);
void BuffSerial::println(void){
print("\r\n");
}
//--------------------------------------------------------------------------------
void BuffSerial::printHex8(uint8_t data)
//--------------------------------------------------------------------------------
{
printHex4(data >> 4);
printHex4(data);
void BuffSerial::println_p(const char *pBuf){
print_p(pBuf);
println();
}
//--------------------------------------------------------------------------------
void BuffSerial::printDec(uint8_t data)
//--------------------------------------------------------------------------------
{
uint8_t buf[3];
uint8_t i = 0;
if (data == 0) {
sendByte('0');
return;
}
void BuffSerial::printHex4(uint8_t data){
uint8_t c = data & 0x0f;
c += c < 10 ? '0' : 'A' - 10 ;
sendByte(c);
}
while (data > 0) {
buf[i++] = data % 10;
data /= 10;
}
for (; i > 0; i--)
sendByte((buf[i - 1] < 10 ? '0' + buf[i - 1] : 'A' + buf[i - 1] - 10));
void BuffSerial::printHex8(uint8_t data){
printHex4(data >> 4);
printHex4(data);
}
void BuffSerial::printDec(uint8_t data){
uint8_t buf[3];
uint8_t i = 0;
if (data == 0){
sendByte('0');
return;
}
while (data > 0){
buf[i++] = data % 10;
data /= 10;
}
for (; i > 0; i--)
sendByte((buf[i - 1] < 10 ? '0' + buf[i - 1] : 'A' + buf[i - 1] - 10));
}
// check rx buffer not empty
//--------------------------------------------------------------------------------
bool BuffSerial::rxEnabled(void)
//--------------------------------------------------------------------------------
{
return rxEnd;
bool BuffSerial::rxEnabled(void){
return rxEnd;
}
//--------------------------------------------------------------------------------
uint8_t BuffSerial::rxRead(void)
//--------------------------------------------------------------------------------
{
uint8_t BuffSerial::rxRead(void){
#if defined(__AVR_ATmega8__)
cbi(UCSRB, RXCIE); // disable RX complete interrupt
cbi(UCSRB, RXCIE); // disable RX complete interrupt
#else
cbi(UCSR0B, RXCIE0); // disable RX complete interrupt
cbi(UCSR0B, RXCIE0); // disable RX complete interrupt
#endif
uint8_t readkey = rxBuffer[rxBegin]; // read begin of received Buffer
rxBegin++;
if (rxBegin == rxEnd) rxBegin = rxEnd = 0; // if Buffer is empty reset Buffer
uint8_t readkey = rxBuffer[rxBegin]; // read begin of received Buffer
rxBegin++;
if (rxBegin == rxEnd) rxBegin = rxEnd = 0; // if Buffer is empty reset Buffer
#if defined(__AVR_ATmega8__)
sbi(UCSRB, RXCIE); // enable RX complete interrupt
sbi(UCSRB, RXCIE); // enable RX complete interrupt
#else
sbi(UCSR0B, RXCIE0); // enable RX complete interrupt
sbi(UCSR0B, RXCIE0); // enable RX complete interrupt
#endif
return readkey;
return readkey;
}
BuffSerial bSerial;

53
AVC_LAN_logger/AVCLan_mini/BuffSerial.h
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@ -1,7 +1,9 @@
/*
BuffSerial.h v.01 - serial with transmit buffer library for Wiring
Created by Kochetkov Aleksey, 03.07.2009
BuffSerial.h - serial with transmit buffer library for Wiring
Created by Kochetkov Aleksey, 28.11.2009
Version 0.1.2
*/
#include <avr/pgmspace.h>
#ifndef BuffSerial_h
#define BuffSerial_h
@ -11,6 +13,7 @@
#define TX_BUFF_SIZE 240 // max 65535
#define RX_BUFF_SIZE 25 // max 255
#define TX_BUFF_MAX_LEN TX_BUFF_SIZE - 1
#define BUFFSERIAL_VERSION "0.1.2"
#ifndef cbi
#define cbi(sfr, bit) (_SFR_BYTE(sfr) &= ~_BV(bit))
@ -19,28 +22,30 @@
#define sbi(sfr, bit) (_SFR_BYTE(sfr) |= _BV(bit))
#endif
class BuffSerial {
public:
uint8_t rxBuffer[RX_BUFF_SIZE];
uint8_t rxBegin;
uint8_t rxEnd;
uint8_t txBuffer[TX_BUFF_SIZE];
uint16_t txBegin;
uint16_t txEnd;
uint8_t txFull;
uint16_t txOverflow;
void begin(long);
void sendByte(uint8_t);
void print(const char*);
void print(const char);
void println(const char*);
void println(const char);
void println(void);
void printHex4(uint8_t);
void printHex8(uint8_t);
void printDec(uint8_t);
bool rxEnabled(void);
uint8_t rxRead(void);
class BuffSerial{
public:
uint8_t rxBuffer[RX_BUFF_SIZE];
uint8_t rxBegin;
uint8_t rxEnd;
uint8_t txBuffer[TX_BUFF_SIZE];
uint16_t txBegin;
uint16_t txEnd;
uint8_t txFull;
uint16_t txOverflow;
void begin(long);
void sendByte(uint8_t);
void print(const char*);
void print(const char);
void print_p(const char*);
void println(const char*);
void println(const char);
void println(void);
void println_p(const char*);
void printHex4(uint8_t);
void printHex8(uint8_t);
void printDec(uint8_t);
bool rxEnabled(void);
uint8_t rxRead(void);
};
extern BuffSerial bSerial;

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