Rob Dobson
Monitor for central heating system (e.g. 2zones+hw) Supports up to 15 temp probes (DS18B20/DS18S20) 3 valve monitors Gas pulse meter recording Use stand-alone or with nodeEnergyServer See http://robdobson.com/2015/09/central-heating-monitor
Dependencies: EthernetInterfacePlusHostname NTPClient Onewire RdWebServer SDFileSystem-RTOS mbed-rtos mbed-src
Diff: main.cpp
- Revision:
- 9:0e103c2f869a
- Parent:
- 8:5980547ae71c
- Child:
- 10:72eb217def1f
--- a/main.cpp Sat Feb 21 19:00:08 2015 +0000
+++ b/main.cpp Sun Feb 22 11:57:12 2015 +0000
@@ -3,7 +3,7 @@
#include "NTPClient.h"
#include "RdWebServer.h"
#include "GasUseCounter.h"
-#include "RdDS18B20.h"
+#include "Thermometers.h"
#include <stdarg.h>
// Web and UDB ports
@@ -13,6 +13,7 @@
// Ticker collects data
//Ticker ticker;
//const int TICK_MS = 250;
+const int LOOP_DELAY_IN_MS = 250;
// Debugging and status
RawSerial pc(USBTX, USBRX);
@@ -38,9 +39,9 @@
// Thermometers - DS18B20 OneWire Thermometer connections
const PinName tempSensorPins[] = { p22 };
-const int NUM_THERM_BUSES = sizeof(tempSensorPins)/sizeof(int);
-DS18B20* thermometerBuses[NUM_THERM_BUSES];
+Thermometers thermometers(sizeof(tempSensorPins)/sizeof(PinName), tempSensorPins, LOOP_DELAY_IN_MS);
+// Utility function to log data
void LogData(const char* format, ...)
{
FILE* fp = fopen(logFilename, "a");
@@ -58,6 +59,7 @@
}
}
+// Send broadcast message with current data
void SendInfoBroadcast()
{
led3 = true;
@@ -66,6 +68,15 @@
sendUDPSocket.set_broadcasting();
broadcastEndpoint.set_address("255.255.255.255", BROADCAST_PORT);
+ // Get temperature values
+ TemperatureValue tempValues[Thermometers::MAX_THERMOMETERS];
+ int numTempValues = thermometers.GetTemperatureValues(Thermometers::MAX_THERMOMETERS, tempValues, 100);
+ char tempStr[200];
+ for (int tempIdx = 0; tempIdx < numTempValues; tempIdx++)
+ {
+ printf("Temp: %.1f, Addr: %s, Time: %d\r\n", tempValues[tempIdx].tempInCentigrade, tempValues[tempIdx].address, tempValues[tempIdx].timeStamp);
+ }
+
// Format message
char outBuf[200];
sprintf(outBuf, "{\"e\":[{\"n\":\"gasCount\",\"v\":%d},{\"n\":\"gasPulseRateMs\",\"v\":%d,\"u\":\"ms\"}]}",
@@ -110,7 +121,7 @@
char* setGasUseCallback(int method, char* cmdStr, char* argStr)
{
- pc.printf("Setting gas use count %s\n\r", argStr);
+ pc.printf("Setting gas use count %s\r\n", argStr);
int newGasUse = 0;
char* eqStr = strchr(argStr, '=');
if (eqStr == NULL)
@@ -158,12 +169,12 @@
{
osDelay(1000);
}
- pc.printf("Waited %d mins\r\n", i);
+ pc.printf("%d mins since NTP\r\n", i);
}
break;
}
}
-
+
int main()
{
pc.baud(115200);
@@ -171,18 +182,9 @@
// ticker.attach(&TickFunction,TICK_MS / 1000.0);
- // Setup the thermometers
- for (int thermIdx = 0; thermIdx < NUM_THERM_BUSES; thermIdx++)
- thermometerBuses[thermIdx] = new DS18B20(tempSensorPins[thermIdx]);
-
- // Initialise thermometers
- for (int thermIdx = 0; thermIdx < NUM_THERM_BUSES; thermIdx++)
- {
- DS18B20* pThermBus = thermometerBuses[thermIdx];
- pThermBus->SearchToGetAddresses();
- pThermBus->ReqConvert();
- }
-
+ // Initialise thermometers
+ thermometers.Init();
+
// Get the current count from the SD Card
gasUseCounter.Init();
@@ -190,7 +192,7 @@
eth.init(); //Use DHCP
eth.connect();
- pc.printf("IP Address is %s\n\r", eth.getIPAddress());
+ pc.printf("IP Address is %s\r\n", eth.getIPAddress());
// NTP Time setter
Thread ntpTimeSetter(&ntp_thread);
@@ -198,70 +200,30 @@
// Web Server
Thread httpServer(&http_thread, NULL, osPriorityNormal, (DEFAULT_STACK_SIZE * 3));
- const int loopDelayInMs = 250;
- const int numSecondsBetweenThermReadings = 10;
- const int numLoopsPerThermReading = numSecondsBetweenThermReadings*1000/loopDelayInMs;
- const int timeForThermReadingInSecs = 2;
- const int loopCountForRequestingThermReading = numLoopsPerThermReading - (timeForThermReadingInSecs*1000/loopDelayInMs);
- int countForThermReadings = 0;
- const int reGetThermometerAddressesAfterNumReadings = 100;
- int countForGetThermometerAddresses = 0;
+ // Time of last broadcast
+ time_t timeOfLastBroadcast = time(NULL);
+ const int TIME_BETWEEN_BROADCASTS_IN_SECS = 60;
while(true)
{
- osDelay(loopDelayInMs);
+ osDelay(LOOP_DELAY_IN_MS);
led1 = !led1;
// Service gas count
if (gasUseCounter.Service())
- SendInfoBroadcast();
-
- // Check if thermometer addresses need to be got
- if (countForThermReadings++ == 0)
- {
- if (countForGetThermometerAddresses++ == 0)
- {
- printf("Requested Addresses\n\r");
- for (int thermIdx = 0; thermIdx < NUM_THERM_BUSES; thermIdx++)
- {
- DS18B20* pThermBus = thermometerBuses[thermIdx];
- pThermBus->SearchToGetAddresses();
- }
- }
- else if (countForGetThermometerAddresses > reGetThermometerAddressesAfterNumReadings)
- {
- countForGetThermometerAddresses = 0;
- }
- }
- else
{
- // Check if time to request thermometer readings
- if (countForThermReadings == loopCountForRequestingThermReading)
- {
- printf("Requested Convert\n\r");
- for (int thermIdx = 0; thermIdx < NUM_THERM_BUSES; thermIdx++)
- {
- DS18B20* pThermBus = thermometerBuses[thermIdx];
- printf("Bus %d Num therms %d\n\r", thermIdx, pThermBus->GetNumAddresses());
- pThermBus->ReqConvert();
- }
- }
+ SendInfoBroadcast();
+ timeOfLastBroadcast = time(NULL);
+ }
- // Read thermometers
- if (countForThermReadings > numLoopsPerThermReading)
- {
- countForThermReadings = 0;
- printf("Reading Temp\n\r");
- for (int thermIdx = 0; thermIdx < NUM_THERM_BUSES; thermIdx++)
- {
- DS18B20* pThermBus = thermometerBuses[thermIdx];
- for (int addrIdx = 0; addrIdx < pThermBus->GetNumAddresses(); addrIdx++)
- {
- printf("Bus %d Therm %d === %.2fC ... Addr = ", thermIdx, addrIdx, pThermBus->GetTemperature(addrIdx));
- pThermBus->DebugPrintAddress(addrIdx);
- printf("\r\n");
- }
- }
- }
+ // Service thermometers
+ thermometers.Service();
+
+ // Check if ready for a broadcast
+ if ((time(NULL) - timeOfLastBroadcast) >= TIME_BETWEEN_BROADCASTS_IN_SECS)
+ {
+ SendInfoBroadcast();
+ timeOfLastBroadcast = time(NULL);
}
}
}
+