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CCx.cpp
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CCx.cpp
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// EvohomeWirelessFW - RFBee firmware for evohome wireless communications
// Copyright (c) 2015 Hydrogenetic
//
// based on HoneyComm - Alternative RFBee firmware to communicate with
// HR80 radiator controllers.
//
// Copyright (C) 2011 Wladimir Komarow
//
// and work from CrazyDiamond and others at http://www.domoticaforum.eu/viewtopic.php?f=7&t=5806
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see <http://www.gnu.org/licenses/>.
//
#include "CCx.h"
#include "CCxCfg.h"
#include "Spi.h"
//---------- constructor ----------------------------------------------------
CCX::CCX(){}
// Power On Reset as described in 19.1.2 of cc1100 datasheet, tried APOR as described in 19.1.1 but that did not work :-(
void CCX::PowerOnStartUp()
{
Spi.mode((1 << SPR1) | (1 << SPR0));//SPICLK=CPU/64
// start manual Power On Reset
Spi.slaveSelect(HIGH);
delayMicroseconds(1);
Spi.slaveSelect(LOW);
delayMicroseconds(10);
Spi.slaveSelect(HIGH);
delayMicroseconds(41);
Spi.slaveSelect(LOW);
// wait for MISO to go low
while(digitalRead(MISO_PIN));
Spi.transfer(CCx_SRES);
// wait for MISO to go low
while(digitalRead(MISO_PIN));
Spi.slaveSelect(HIGH);
}
byte CCX::Read(byte addr,byte* data)
{
byte result;
Spi.slaveSelect(LOW);
// wait for MISO to go low
while(digitalRead(MISO_PIN));
result=Spi.transfer(addr | 0x80);
*data=Spi.transfer(0);
Spi.slaveSelect(HIGH);
return result;
}
byte CCX::ReadBurst(byte addr, byte* dataPtr, byte size)
{
byte result;
Spi.slaveSelect(LOW);
// wait for MISO to go low
while(digitalRead(MISO_PIN));
result=Spi.transfer(addr | 0xc0);
while(size)
{
*dataPtr++ = Spi.transfer(0);
size--;
}
Spi.slaveSelect(HIGH);
return result;
}
byte CCX::Write(byte addr, byte dat)
{
byte result;
Spi.slaveSelect(LOW);
// wait for MISO to go low
while(digitalRead(MISO_PIN));
result=Spi.transfer(addr);
result=Spi.transfer(dat);
Spi.slaveSelect(HIGH);
return result;
}
byte CCX::WriteBurst(byte addr, const byte* dataPtr, byte size)
{
byte result;
Spi.slaveSelect(LOW);
// wait for MISO to go low
while(digitalRead(MISO_PIN));
result=Spi.transfer(addr | 0x40);
while(size)
{
result = Spi.transfer(*dataPtr++);
size--;
}
Spi.slaveSelect(HIGH);
return result;
}
byte CCX::Strobe(byte addr)
{
byte result;
Spi.slaveSelect(LOW);
// wait for MISO to go low
while(digitalRead(MISO_PIN));
result=Spi.transfer(addr);
Spi.slaveSelect(HIGH);
return result;
}
//configure registers of cc1100 making it work in specific mode
void CCX::Setup(byte configId)
{
byte reg;
byte val;
if (configId < CCX_NR_OF_CONFIGS)
for(byte i = 0; i< CCX_NR_OF_REGISTERS; i++){
reg=pgm_read_byte(&CCx_registers[i]);
val=pgm_read_byte(&CCx_registerSettings[configId][i]);//read flash data no problem
byte temp = Write(reg,val);
//Serial.print(temp,HEX);
//Serial.print(" ");
}
}
// to aid debugging
//#ifdef DEBUG
void CCX::ReadSetup()
{
byte reg;
byte value;
for(byte i = 0; i< CCX_NR_OF_REGISTERS; i++){
reg=pgm_read_byte(&CCx_registers[i]);
Read(reg,&value);
Serial.print(reg,HEX);
Serial.print(':');
Serial.println(value,HEX);
}
}
//#endif
void CCX::setPA(byte configId,byte paIndex)
{
byte PAval=pgm_read_byte(&CCx_paTable[configId][paIndex]);
CCx.Write(CCx_PATABLE,PAval);
}
void CCX::Mode(byte md){
}
byte CCX::NrOfConfigs(){
return CCX_NR_OF_CONFIGS;
}
byte CCX::RSSIdecode(byte rssiEnc){
byte rssi;
byte rssiOffset=74; // is actually dataRate dependant, but for simplicity assumed to be fixed.
// RSSI is coded as 2's complement see section 17.3 RSSI of the cc1100 datasheet
if (rssiEnc >= 128)
rssi = (( rssiEnc - 256) >> 1) - rssiOffset;
else
rssi = (rssiEnc >> 1) - rssiOffset;
return rssi;
}
//---------- preinstantiate CCx object --------------------------------------
CCX CCx = CCX();