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NdefRecord.cpp
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NdefRecord.cpp
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#include "NdefRecord.h"
NdefRecord::NdefRecord()
{
//Serial.println("NdefRecord Constructor 1");
_tnf = 0;
_typeLength = 0;
_payloadLength = 0;
_idLength = 0;
_type = (byte *)NULL;
_payload = (byte *)NULL;
_id = (byte *)NULL;
}
NdefRecord::NdefRecord(const NdefRecord& rhs)
{
//Serial.println("NdefRecord Constructor 2 (copy)");
_tnf = rhs._tnf;
_typeLength = rhs._typeLength;
_payloadLength = rhs._payloadLength;
_idLength = rhs._idLength;
_type = (byte *)NULL;
_payload = (byte *)NULL;
_id = (byte *)NULL;
if (_typeLength)
{
_type = (byte*)malloc(_typeLength);
memcpy(_type, rhs._type, _typeLength);
}
if (_payloadLength)
{
_payload = (byte*)malloc(_payloadLength);
memcpy(_payload, rhs._payload, _payloadLength);
}
if (_idLength)
{
_id = (byte*)malloc(_idLength);
memcpy(_id, rhs._id, _idLength);
}
}
// TODO NdefRecord::NdefRecord(tnf, type, payload, id)
NdefRecord::~NdefRecord()
{
//Serial.println("NdefRecord Destructor");
if (_typeLength)
{
free(_type);
}
if (_payloadLength)
{
free(_payload);
}
if (_idLength)
{
free(_id);
}
}
NdefRecord& NdefRecord::operator=(const NdefRecord& rhs)
{
//Serial.println("NdefRecord ASSIGN");
if (this != &rhs)
{
// free existing
if (_typeLength)
{
free(_type);
}
if (_payloadLength)
{
free(_payload);
}
if (_idLength)
{
free(_id);
}
_tnf = rhs._tnf;
_typeLength = rhs._typeLength;
_payloadLength = rhs._payloadLength;
_idLength = rhs._idLength;
if (_typeLength)
{
_type = (byte*)malloc(_typeLength);
memcpy(_type, rhs._type, _typeLength);
}
if (_payloadLength)
{
_payload = (byte*)malloc(_payloadLength);
memcpy(_payload, rhs._payload, _payloadLength);
}
if (_idLength)
{
_id = (byte*)malloc(_idLength);
memcpy(_id, rhs._id, _idLength);
}
}
return *this;
}
// size of records in bytes
int NdefRecord::getEncodedSize()
{
int size = 2; // tnf + typeLength
if (_payloadLength > 0xFF)
{
size += 4;
}
else
{
size += 1;
}
if (_idLength)
{
size += 1;
}
size += (_typeLength + _payloadLength + _idLength);
return size;
}
void NdefRecord::encode(byte *data, bool firstRecord, bool lastRecord)
{
// assert data > getEncodedSize()
uint8_t* data_ptr = &data[0];
*data_ptr = getTnfByte(firstRecord, lastRecord);
data_ptr += 1;
*data_ptr = _typeLength;
data_ptr += 1;
if (_payloadLength <= 0xFF) { // short record
*data_ptr = _payloadLength;
data_ptr += 1;
} else { // long format
// 4 bytes but we store length as an int
data_ptr[0] = 0x0; // (_payloadLength >> 24) & 0xFF;
data_ptr[1] = 0x0; // (_payloadLength >> 16) & 0xFF;
data_ptr[2] = (_payloadLength >> 8) & 0xFF;
data_ptr[3] = _payloadLength & 0xFF;
data_ptr += 4;
}
if (_idLength)
{
*data_ptr = _idLength;
data_ptr += 1;
}
//Serial.println(2);
memcpy(data_ptr, _type, _typeLength);
data_ptr += _typeLength;
memcpy(data_ptr, _payload, _payloadLength);
data_ptr += _payloadLength;
if (_idLength)
{
memcpy(data_ptr, _id, _idLength);
data_ptr += _idLength;
}
}
byte NdefRecord::getTnfByte(bool firstRecord, bool lastRecord)
{
int value = _tnf;
if (firstRecord) { // mb
value = value | 0x80;
}
if (lastRecord) { //
value = value | 0x40;
}
// chunked flag is always false for now
// if (cf) {
// value = value | 0x20;
// }
if (_payloadLength <= 0xFF) {
value = value | 0x10;
}
if (_idLength) {
value = value | 0x8;
}
return value;
}
byte NdefRecord::getTnf()
{
return _tnf;
}
void NdefRecord::setTnf(byte tnf)
{
_tnf = tnf;
}
unsigned int NdefRecord::getTypeLength()
{
return _typeLength;
}
int NdefRecord::getPayloadLength()
{
return _payloadLength;
}
unsigned int NdefRecord::getIdLength()
{
return _idLength;
}
String NdefRecord::getType()
{
char type[_typeLength + 1];
memcpy(type, _type, _typeLength);
type[_typeLength] = '\0'; // null terminate
return String(type);
}
// this assumes the caller created type correctly
void NdefRecord::getType(uint8_t* type)
{
memcpy(type, _type, _typeLength);
}
void NdefRecord::setType(const byte * type, const unsigned int numBytes)
{
if(_typeLength)
{
free(_type);
}
_type = (uint8_t*)malloc(numBytes);
memcpy(_type, type, numBytes);
_typeLength = numBytes;
}
// assumes the caller sized payload properly
void NdefRecord::getPayload(byte *payload)
{
memcpy(payload, _payload, _payloadLength);
}
void NdefRecord::setPayload(const byte * payload, const int numBytes)
{
if (_payloadLength)
{
free(_payload);
}
_payload = (byte*)malloc(numBytes);
memcpy(_payload, payload, numBytes);
_payloadLength = numBytes;
}
String NdefRecord::getId()
{
char id[_idLength + 1];
memcpy(id, _id, _idLength);
id[_idLength] = '\0'; // null terminate
return String(id);
}
void NdefRecord::getId(byte *id)
{
memcpy(id, _id, _idLength);
}
void NdefRecord::setId(const byte * id, const unsigned int numBytes)
{
if (_idLength)
{
free(_id);
}
_id = (byte*)malloc(numBytes);
memcpy(_id, id, numBytes);
_idLength = numBytes;
}
void NdefRecord::print()
{
Serial.println(F(" NDEF Record"));
Serial.print(F(" TNF 0x"));Serial.print(_tnf, HEX);Serial.print(" ");
switch (_tnf) {
case TNF_EMPTY:
Serial.println(F("Empty"));
break;
case TNF_WELL_KNOWN:
Serial.println(F("Well Known"));
break;
case TNF_MIME_MEDIA:
Serial.println(F("Mime Media"));
break;
case TNF_ABSOLUTE_URI:
Serial.println(F("Absolute URI"));
break;
case TNF_EXTERNAL_TYPE:
Serial.println(F("External"));
break;
case TNF_UNKNOWN:
Serial.println(F("Unknown"));
break;
case TNF_UNCHANGED:
Serial.println(F("Unchanged"));
break;
case TNF_RESERVED:
Serial.println(F("Reserved"));
break;
default:
Serial.println();
}
Serial.print(F(" Type Length 0x"));Serial.print(_typeLength, HEX);Serial.print(" ");Serial.println(_typeLength);
Serial.print(F(" Payload Length 0x"));Serial.print(_payloadLength, HEX);;Serial.print(" ");Serial.println(_payloadLength);
if (_idLength)
{
Serial.print(F(" Id Length 0x"));Serial.println(_idLength, HEX);
}
Serial.print(F(" Type "));PrintHexChar(_type, _typeLength);
// TODO chunk large payloads so this is readable
Serial.print(F(" Payload "));PrintHexChar(_payload, _payloadLength);
if (_idLength)
{
Serial.print(F(" Id "));PrintHexChar(_id, _idLength);
}
Serial.print(F(" Record is "));Serial.print(getEncodedSize());Serial.println(" bytes");
}