wireless sensor
rssi test for 915
Dependencies: libmDot915 mbed-rtos mbed
Fork of
rssi_test
by 
wireless sensor
main.cpp
- Committer:
- wang1tao
- Date:
- 2016-08-15
- Revision:
- 11:1ecd1cdca9ef
- Parent:
- 10:79124c0a5952
- Child:
- 12:b31e43c9fb15
File content as of revision 11:1ecd1cdca9ef:
#include "mbed.h"
#include "mDot.h"
#include "MTSLog.h"
#include <string>
#include <vector>
#include <algorithm>
#include "AnalogPH.h"
//defined for mDot SVB debug, comment it if applying for whole system
//#define NO_MULTITECH_GATEWAY
//Define the number of channels
#define NUM_OF_CH 4
AnalogPHSensor CH0_PH(PB_0, 0.0, 0.0);
#if (NUM_OF_CH >1)
AnalogPHSensor CH1_PH(PB_1, 0.0, 0.0);
#endif
#if (NUM_OF_CH >2)
AnalogPHSensor CH2_PH(PA_5, 0.0, 0.0);
#endif
#if (NUM_OF_CH >3)
AnalogPHSensor CH3_PH(PA_4, 0.0, 0.0);
#endif
// these options must match the settings on your Conduit
// uncomment the following lines and edit their values to match your configuration
static std::string config_network_name = "chinaiot";
static std::string config_network_pass = "password";
static uint8_t config_frequency_sub_band = 2;
int main() {
int32_t ret;
mDot* dot;
std::vector<uint8_t> data;
float phValue;
char _header[] = "PH Sensors";
char dataBuf[11];
int i, k;
// get a mDot handle
dot = mDot::getInstance();
// print library version information
logInfo("version: %s", dot->getId().c_str());
//*******************************************
// configuration
//*******************************************
// reset to default config so we know what state we're in
dot->resetConfig();
dot->setLogLevel(mts::MTSLog::INFO_LEVEL);
#ifndef NO_MULTITECH_GATEWAY
// set up the mDot with our network information: frequency sub band, network name, and network password
// these can all be saved in NVM so they don't need to be set every time - see mDot::saveConfig()
// frequency sub band is only applicable in the 915 (US) frequency band
// if using a MultiTech Conduit gateway, use the same sub band as your Conduit (1-8) - the mDot will use the 8 channels in that sub band
// if using a gateway that supports all 64 channels, use sub band 0 - the mDot will use all 64 channels
logInfo("setting frequency sub band");
if ((ret = dot->setFrequencySubBand(config_frequency_sub_band)) != mDot::MDOT_OK) {
logError("failed to set frequency sub band %d:%s", ret, mDot::getReturnCodeString(ret).c_str());
}
logInfo("setting network name");
if ((ret = dot->setNetworkName(config_network_name)) != mDot::MDOT_OK) {
logError("failed to set network name %d:%s", ret, mDot::getReturnCodeString(ret).c_str());
}
logInfo("setting network password");
if ((ret = dot->setNetworkPassphrase(config_network_pass)) != mDot::MDOT_OK) {
logError("failed to set network password %d:%s", ret, mDot::getReturnCodeString(ret).c_str());
}
// a higher spreading factor allows for longer range but lower throughput
// in the 915 (US) frequency band, spreading factors 7 - 10 are available
// in the 868 (EU) frequency band, spreading factors 7 - 12 are available
logInfo("setting TX spreading factor");
if ((ret = dot->setTxDataRate(mDot::SF_10)) != mDot::MDOT_OK) {
logError("failed to set TX datarate %d:%s", ret, mDot::getReturnCodeString(ret).c_str());
}
// request receive confirmation of packets from the gateway
logInfo("enabling ACKs");
if ((ret = dot->setAck(1)) != mDot::MDOT_OK) {
logError("failed to enable ACKs %d:%s", ret, mDot::getReturnCodeString(ret).c_str());
}
// save this configuration to the mDot's NVM
logInfo("saving config");
if (! dot->saveConfig()) {
logError("failed to save configuration");
}
//*******************************************
// end of configuration
//*******************************************
// attempt to join the network
logInfo("joining network");
while ((ret = dot->joinNetwork()) != mDot::MDOT_OK) {
logError("failed to join network %d:%s", ret, mDot::getReturnCodeString(ret).c_str());
// in the 868 (EU) frequency band, we need to wait until another channel is available before transmitting again
osDelay(std::max((uint32_t)1000, (uint32_t)dot->getNextTxMs()));
}
// format data for sending to the gateway
for( int i=0; i< strlen(_header); i++ )
data.push_back( _header[i] );
// send the data to the gateway
if ((ret = dot->send(data)) != mDot::MDOT_OK) {
logError("failed to send", ret, mDot::getReturnCodeString(ret).c_str());
} else {
logInfo("successfully sent data to gateway");
}
#else
logInfo("%s", _header);
#endif
while (true) {
// Read the PH values
for(k=0; k<NUM_OF_CH; k++){
switch(k){
case 0: phValue = CH0_PH; break;
#if (NUM_OF_CH >1)
case 1: phValue = CH1_PH; break;
#endif
#if (NUM_OF_CH >2)
case 2: phValue = CH2_PH; break;
#endif
#if (NUM_OF_CH >3)
case 3: phValue = CH3_PH; break;
#endif
default:
break;
}
sprintf(dataBuf, "CH%d:%5.4f", k, phValue);
logInfo("%s", dataBuf);
#ifndef NO_MULTITECH_GATEWAY
//Send the data to Gateway
data.clear();
// probably not the most efficent way to do this
for( int i=0; i< strlen(dataBuf); i++ )
data.push_back( dataBuf[i] );
// send the data to the gateway
if ((ret = dot->send(data)) != mDot::MDOT_OK) {
logError("failed to send", ret, mDot::getReturnCodeString(ret).c_str());
// attempt to join the network
logInfo("rejoin network");
if ((ret = dot->joinNetworkOnce()) != mDot::MDOT_OK) {
logError("failed to re-join network %d:%s", ret, mDot::getReturnCodeString(ret).c_str());
// in the 868 (EU) frequency band, we need to wait until another channel is available before transmitting again
//osDelay(std::max((uint32_t)2000, (uint32_t)dot->getNextTxMs()));
}
} else {
logInfo("successfully sent data to gateway");
}
#endif
} //for
//printf("++++++++++++++++++++++\t");
// in the 868 (EU) frequency band, we need to wait until another channel is available before transmitting again
#ifndef NO_MULTITECH_GATEWAY
osDelay(std::max((uint32_t)5000, (uint32_t)dot->getNextTxMs()));
#else
osDelay(1000);
#endif
}
}