Wim De Roeve
/
VBus
Important changes to repositories hosted on mbed.com
Mbed hosted mercurial repositories are deprecated and are due to be permanently deleted in July 2026.
To keep a copy of this software download the repository Zip archive or clone locally using Mercurial.
It is also possible to export all your personal repositories from the account settings page.
VBus.cpp
- Committer:
- Wimpie
- Date:
- 2011-04-17
- Revision:
- 3:5ae3c983f241
- Parent:
- 2:0306beaf5ff7
- Child:
- 4:c16866ed9508
File content as of revision 3:5ae3c983f241:
/*
Copyright (c) 2010 Wim De Roeve
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in
all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
THE SOFTWARE.
*/
#include "VBus.h"
#include "DebugTrace.h"
#define DEBUG 0
#if DEBUG
DebugTrace pc_VBus(OFF, TO_SERIAL);
#endif
static uint8_t CalcCrc(const unsigned char *Buffer, int Offset, int Length);
float CalcTemp(char Byte1, char Byte2);
VBus::VBus(PinName tx, PinName rx)
: _Serial(tx, rx) {
_sdcard=false;
_all=false;
ClearMax();
Init(0);
}
void VBus::Init(int addr=0) {
_Serial.baud(9600);
_Serial.format(8,Serial::None,1);
m_timeout=2;
if (addr!=0)
networkaddress=addr;
else
networkaddress=ResolAddress;
}
void VBus::SDcardAvailable(bool status) {
_sdcard=status;
}
void VBus::InjectSeptet(unsigned char *Buffer, int Offset, int Length) {
for (unsigned int i = 0; i < Length; i++) {
if (Septet & (1 << i)) {
Buffer [Offset + i] |= 0x80;
}
}
}
bool VBus::Read() {
int F;
char c;
bool start,stop,quit;
start = true;
stop = false;
quit = false;
Bufferlength=0;
m_timer.reset();
m_timer.start();
while ((!stop) and (!quit)) {
if (_Serial.readable()) {
c=_Serial.getc();
if (c == Sync) {
if (start) {
start=false;
Bufferlength=0;
//#if DEBUG
// pc_VBus.traceOut("\r\n");
//#endif
} else {
if (Bufferlength<20) {
m_timer.stop();
m_timer.reset();
m_timer.start();
Bufferlength=0;
} else
stop=true;
}
}
//#if DEBUG
// pc_VBus.traceOut("%X ",c);
//#endif
if ((!start) and (!stop)) {
Buffer[Bufferlength]=c;
Bufferlength++;
}
}
if ((m_timeout > 0) && (m_timer.read() > m_timeout )) {
quit=true;
//#if DEBUG
// pc_VBus.traceOut("Timeout %i",m_timer.read());
//#endif
}
}
m_timer.stop();
#if DEBUG
pc_VBus.traceOut("\r\nBuffer %i \r\n",Bufferlength);
for (int i=0; i<Bufferlength;i++) {
pc_VBus.traceOut("%X ",Buffer[i]);
}
pc_VBus.traceOut("\r\n");
#endif
if (!quit) {
Destination_address = Buffer[2] << 8;
Destination_address |= Buffer[1];
Source_address = Buffer[4] << 8;
Source_address |= Buffer[3];
ProtocolVersion = (Buffer[5]>>4) + (Buffer[5] &(1<<15));
Command = Buffer[7] << 8;
Command |= Buffer[6];
Framecnt = Buffer[8];
Checksum = Buffer[9]; //TODO check if Checksum is OK
#if DEBUG
pc_VBus.traceOut("\r\nDestination %X",Destination_address);
pc_VBus.traceOut("\r\nSource %X",Source_address);
pc_VBus.traceOut("\r\nProtocol version %X",ProtocolVersion);
pc_VBus.traceOut("\r\nCommand %X",Command);
pc_VBus.traceOut("\r\nFramecnt %X", Framecnt);
pc_VBus.traceOut("\r\nChecksum %X\r\n", Checksum);
#endif
// only analyse Commands 0x100 = Packet Contains data for slave
// with correct length = 10 bytes for HEADER and 6 Bytes for each frame
if ((Command==0x0100) and (Bufferlength==10+Framecnt*6)) {
// Frame info for the Resol ConergyDT5 used by IZEN
// check VBusprotocol specification for other products
//
// Each frame has 6 bytes
// byte 1 to 4 are data bytes -> MSB of each bytes
// byte 5 is a septet and contains MSB of bytes 1 to 4
// byte 6 is a checksum
//
//******************* Frame 1 *******************
F=FOffset;
Septet=Buffer[F+FSeptet];
InjectSeptet(Buffer,F,4);
// 'collector1' Temperatur Sensor 1, 15 bits, factor 0.1 in C
Sensor1_temp =CalcTemp(Buffer[F+1], Buffer[F]);
// 'store1' Temperature sensor 2, 15 bits, factor 0.1 in C
Sensor2_temp =CalcTemp(Buffer[F+3], Buffer[F+2]);
//******************* Frame 2 *******************
F=FOffset+FLength;
Septet=Buffer[F+FSeptet];
InjectSeptet(Buffer,F,4);
Sensor3_temp =CalcTemp(Buffer[F+1], Buffer[F]);
Sensor4_temp =CalcTemp(Buffer[F+3], Buffer[F+2]);
//******************* Frame 3 *******************
F=FOffset+FLength*2;
Septet=Buffer[F+FSeptet];
InjectSeptet(Buffer,F,4);
PumpSpeed1 = (Buffer[F] & 0X7F);
PumpSpeed2 = (Buffer[F+1] & 0X7F);
RelaisMask = Buffer[F+2];
ErrorMask = Buffer[F+3];
//******************* Frame 4 *******************
F=FOffset+FLength*3;
Septet=Buffer[F+FSeptet];
InjectSeptet(Buffer,F,4);
SystemTime = Buffer[F+1] << 8 | Buffer[F];
System = Buffer[F+2];
OptionPostPulse = (Buffer[F+3] & 0x01);
OptionThermostat = ((Buffer[F+3] & 0x02) >> 1);
OptionWMZ = ((Buffer[F+3] & 0x04) >> 2);
//******************* Frame 5 *******************
F=FOffset+FLength*4;
Septet=Buffer[F+FSeptet];
InjectSeptet(Buffer,F,4);
OperatingHoursRelais1=Buffer[F+1] << 8 | Buffer[F];
OperatingHoursRelais2=Buffer[F+3] << 8| Buffer[F+2];
///******************* End of frames ****************
if (Sensor1_temp>Sensor1_temp_max)
Sensor1_temp_max=Sensor1_temp;
if (Sensor2_temp>Sensor2_temp_max)
Sensor2_temp_max=Sensor2_temp;
if (Sensor3_temp>Sensor3_temp_max)
Sensor3_temp_max=Sensor3_temp;
if (Sensor4_temp>Sensor4_temp_max)
Sensor4_temp_max=Sensor4_temp;
#if DEBUG
pc_VBus.traceOut("\r\nSensor 1 %f", Sensor1_temp);
pc_VBus.traceOut("\r\nSensor 2 %f", Sensor2_temp);
pc_VBus.traceOut("\r\nSensor 3 %f", Sensor3_temp);
pc_VBus.traceOut("\r\nSensor 4 %f", Sensor4_temp);
pc_VBus.traceOut("\r\nPumpSpeed1 %i", PumpSpeed1);
pc_VBus.traceOut("\r\nPumpSpeed2 %i", PumpSpeed2);
pc_VBus.traceOut("\r\nRelaismask %i", RelaisMask);
pc_VBus.traceOut("\r\nErrorMask %i", ErrorMask);
pc_VBus.traceOut("\r\nSystemTime %i", SystemTime);
pc_VBus.traceOut("\r\nSystem %i", System);
pc_VBus.traceOut("\r\nOptionPostPulse %i", OptionPostPulse);
pc_VBus.traceOut("\r\nOptionThermostat %i", OptionThermostat);
pc_VBus.traceOut("\r\nOptionWMZ %i", OptionWMZ);
pc_VBus.traceOut("\r\nOperatingHoursRelais1 %i", OperatingHoursRelais1);
pc_VBus.traceOut("\r\nOperatingHoursRelais2 %i", OperatingHoursRelais2);
#endif
}
}
return !quit;
}
void VBus::SaveToSDcard(char* datetime, char* date,char* dayfn) {
#if DEBUG
pc_VBus.traceOut("save ULX code=%i\r\n",code);
#endif
char fn[16];
strcpy(fn,"/sd/vb");
strcat(fn,dayfn);
strcat(fn,".js");
//****************
// vbyymmdd.js
//
// detailed dayinfo , each 5 minutes
//
// vb[i++]="dd.mm.yy hh:mm:ss|v1;v2;v3;v4;v5;v6;v7;...
//
//****************
fprintf(stderr,"vb[i++]=%c%s|%4.1f;%4.1f;%4.1f;%4.1f;%i;%i;%i;%i;%i;%i;%i;%i;%i;%i;%i%c\r\n", 34,datetime,
Sensor1_temp, Sensor2_temp,Sensor3_temp, Sensor4_temp,
PumpSpeed1,PumpSpeed2,
RelaisMask,ErrorMask,SystemTime,System,OptionPostPulse,
OptionThermostat, OptionWMZ, OperatingHoursRelais1,OperatingHoursRelais2,
34);
if (_sdcard) {
FILE *fp = fopen(fn, "a");
if (fp) {
fprintf(fp,"vb[i++]=%c%s|%4.1f;%4.1f;%4.1f;%4.1f;%i;%i;%i;%i;%i;%i;%i;%i;%i;%i;%i%c\r\n", 34,datetime,
Sensor1_temp, Sensor2_temp,Sensor3_temp, Sensor4_temp,
PumpSpeed1,PumpSpeed2,
RelaisMask,ErrorMask,SystemTime,System,OptionPostPulse,
OptionThermostat, OptionWMZ, OperatingHoursRelais1,OperatingHoursRelais2,
34);
fclose(fp);
}
}
}
void VBus::ClearMax() {
Sensor1_temp_max=0.0;
Sensor2_temp_max=0.0;
Sensor3_temp_max=0.0;
Sensor4_temp_max=0.0;
}
void VBus::make_Header (unsigned int DAdr,unsigned int SAdr,unsigned char Ver,unsigned int Cmd,unsigned char AFrames) {
unsigned char Buffer[10]={Sync,(uint8_t)DAdr,DAdr>>8,(uint8_t)SAdr,SAdr>>8,Ver,(uint8_t)Cmd,Cmd>>8,AFrames};
Buffer[9]=CalcCrc(Buffer,1,8);
// pc_VBus.traceOut("\r\nmake_Header\r\n");
for (unsigned bo=0;bo<=9;bo++) {
_Serial.putc(Buffer[bo]);
}
// pc_VBus.traceOut("\r\n");
}
static uint8_t CalcCrc(const unsigned char *Buffer, int Offset, int Length) {
static uint8_t Crc= 0x7F;
for (unsigned int i = 0; i < Length; i++) {
Crc = (Crc - Buffer [Offset + i]) & 0x7F;
}
return Crc;
}
float CalcTemp(char Byte1, char Byte2) {
int v;
v = Byte1 << 8 | Byte2;
if (Byte1 == 0xFF) // negatief value
v = v - 0x10000;
if (v==SENSORNOTCONNECTED)
v=0;
return (float)((float) v * 0.1);
}