Ag demo with soil moisture
Dependencies: DOGS102 ISL29011 MMA845x MPL3115A2 NCP5623B libmDot mbed-rtos mbed-src
Fork of MTDOT-EVBDemo-DRH by
main.cpp
- Committer:
- falingtrea
- Date:
- 2015-07-06
- Revision:
- 1:ac9595d0f0e7
- Parent:
- 0:bdd16076aaa5
- Child:
- 2:75adc72aa6a0
File content as of revision 1:ac9595d0f0e7:
/** * @file main.cpp * @brief Main application for mDot-EVB demo * @author Tim Barr MultiTech Systems Inc. * @version 1.01 * @see * * Copyright (c) 2015 * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * * 1.01 TAB 7/6/15 Removed NULL pointer from evbAmbientLight creation call. */ #include "mbed.h" #include "MMA845x.h" #include "MPL3115A2.h" #include "ISL29011.h" #include "NCP5623B.h" #include "DOGS102.h" #include "font_6x8.h" #include "MultiTech_Logo.h" #include "mDot.h" #include "rtos.h" #include <string> #include <vector> enum LED1_COLOR { RED = 0, GREEN = 1 }; /* * union for converting from 32-bit to 4 8-bit values */ union convert32 { int32_t f_s; // convert from signed 32 bit int uint32_t f_u; // convert from unsigned 32 bit int uint8_t t_u[4]; // convert to 8 bit unsigned array }; /* * union for converting from 16- bit to 2 8-bit values */ union convert16 { int16_t f_s; // convert from signed 16 bit int uint16_t f_u; // convert from unsigned 16 bit int uint8_t t_u[2]; // convert to 8 bit unsigned array }; //DigitalIn mDot02(PA_2); // GPIO/UART_TX //DigitalOut mDot03(PA_3); // GPIO/UART_RX //DigitalIn mDot04(PA_6); // GPIO/SPI_MISO //DigitalIn mDot06(PA_8); // GPIO/I2C_SCL //DigitalIn mDot07(PC_9); // GPIO/I2C_SDA InterruptIn mDot08(PA_12); // GPIO/USB PB S1 on EVB InterruptIn mDot09(PA_11); // GPIO/USB PB S2 on EVB //DigitalIn mDot11(PA_7); // GPIO/SPI_MOSI InterruptIn mDot12(PA_0); // GPIO/UART_CTS PRESSURE_INT2 on EVB DigitalOut mDot13(PC_13,1); // GPIO LCD_C/D InterruptIn mDot15(PC_1); // GPIO LIGHT_PROX_INT on EVB InterruptIn mDot16(PA_1); // GPIO/UART_RTS ACCEL_INT2 on EVB DigitalOut mDot17(PA_4,1); // GPIO/SPI_NCS LCD_CS on EVB //DigitalIn mDot18(PA_5); // GPIO/SPI_SCK //DigitalInOut mDot19(PB_0,PIN_INPUT,PullNone,0); // GPIO PushPull LED Low=Red High=Green set MODE=INPUT to turn off AnalogIn mDot20(PB_1); // GPIO Current Sense Analog in on EVB Serial debugUART(PA_9, PA_10); // mDot debug UART //Serial mDotUART(PA_2, PA_3); // mDot external UART mDot02 and mDot03 I2C mDoti2c(PC_9,PA_8); // mDot External I2C mDot6 and mDot7 SPI mDotspi(PA_7,PA_6,PA_5); // mDot external SPI mDot11, mDot4, and mDot18 // replace these values with the proper network settings static std::string config_network_name = "TAB-CubeNet"; static std::string config_network_pass = "1nt3gral"; static uint8_t config_frequency_sub_band = 5; uint8_t result, pckt_time=10; char data; unsigned char test; char txtstr[17]; int32_t num_whole, mdot_ret; uint32_t pressure; int16_t num_frac; bool exit_program = false; MMA845x_DATA accel_data; MPL3115A2_DATA baro_data; uint16_t lux_data; MMA845x* evbAccel; MPL3115A2* evbBaro; ISL29011* evbAmbLight; NCP5623B* evbBackLight; DOGS102* evbLCD; mDot* mdot_radio; convert32 convertl; convert16 converts; void pb1ISR(void); void pb2ISR(void); void log_error(mDot* dot, const char* msg, int32_t retval); void config_pkt_xmit (void const *args); Thread* thread1; int main() { std::vector<uint8_t> mdot_data; std::vector<uint8_t> mdot_EUI; uint16_t i = 0; debugUART.baud(921600); // mDotUART.baud(9600); // mdot UART unused but available on external connector thread1 = new Thread(config_pkt_xmit); evbAccel = new MMA845x(mDoti2c,MMA845x::SA0_VSS); // setup Accelerometer evbBaro = new MPL3115A2(mDoti2c); // setup Barometric sensor evbAmbLight = new ISL29011(mDoti2c); // Setup Ambient Light Sensor evbBackLight = new NCP5623B(mDoti2c); // setup backlight and LED 2 driver chip evbLCD = new DOGS102(mDotspi, mDot17, mDot13); // setup LCD printf("\n\r setup mdot\n\r"); // get a mDot handle mdot_radio = mDot::getInstance(); if (mdot_radio) { // reset to default config so we know what state we're in mdot_radio->resetConfig(); // Setting up LED1 as activity LED mdot_radio->setActivityLedPin(PB_0); mdot_radio->setActivityLedEnable(true); // Read node ID mdot_EUI = mdot_radio->getDeviceId(); printf("mDot EUI = "); for (i=0; i<mdot_EUI.size(); i++) { printf("%02x ", mdot_EUI[i]); } printf("\n\r"); // set up the mDot with our network information printf("setting frequency sub band\r\n"); if ((mdot_ret = mdot_radio->setFrequencySubBand(config_frequency_sub_band)) != mDot::MDOT_OK) { log_error(mdot_radio, "failed to set frequency sub band", mdot_ret); } printf("setting network name\r\n"); if ((mdot_ret = mdot_radio->setNetworkName(config_network_name)) != mDot::MDOT_OK) { log_error(mdot_radio, "failed to set network name", mdot_ret); } printf("setting network password\r\n"); if ((mdot_ret = mdot_radio->setNetworkPassphrase(config_network_pass)) != mDot::MDOT_OK) { log_error(mdot_radio, "failed to set network password", mdot_ret); } // attempt to join the network printf("joining network\r\n"); while ((mdot_ret = mdot_radio->joinNetwork()) != mDot::MDOT_OK) { log_error(mdot_radio,"failed to join network:", mdot_ret); if (mdot_radio->getFrequencyBand() == mDot::FB_868){ mdot_ret = mdot_radio->getNextTxMs(); } else { mdot_ret = 0; } printf("delay = %lu\n\r",mdot_ret); osDelay(mdot_ret + 1); } } else { printf("radio setup failed\n\r"); //exit(1); } osDelay(200); evbBackLight->setPWM(NCP5623B::LED_3,16); // enable LED2 on EVB and set to 50% PWM /* * Setup SW1 as program stop function */ mDot08.disable_irq(); mDot08.fall(&pb1ISR); /* * need to call this function after rise or fall because rise/fall sets * mode to PullNone */ mDot08.mode(PullUp); mDot08.enable_irq(); /* * Setup SW2 as packet time change */ mDot09.disable_irq(); mDot09.fall(&pb2ISR); /* * need to call this function after rise or fall because rise/fall sets * mode to PullNone */ mDot09.mode(PullUp); mDot09.enable_irq(); /* * Setting other InterruptIn pins with Pull Ups */ mDot12.mode(PullUp); mDot15.mode(PullUp); mDot16.mode(PullUp); // sets LED2 to ramp up to 50% max current at 32 mS per step evbBackLight->setLEDCurrent(16); printf("font table address %p\n\r",&font_6x8); printf("bitmap address %p\n\r",&MultiTech_Logo); printf("Start of Test\n\r"); evbLCD->startUpdate(); evbLCD->writeBitmap(0,0,MultiTech_Logo); sprintf(txtstr,"MTDOT"); evbLCD->writeText(24,3,font_6x8,txtstr,strlen(txtstr)); sprintf(txtstr,"Evaluation"); evbLCD->writeText(24,4,font_6x8,txtstr,strlen(txtstr)); sprintf(txtstr,"Board"); evbLCD->writeText(24,5,font_6x8,txtstr,strlen(txtstr)); osDelay (500); // allows other threads to process printf("shutdown LEDs and update LCD:\n\r"); evbBackLight->shutdown(); evbLCD->endUpdate(); osDelay (1000); // allows other threads to process printf("Turn on LED2\n\r"); evbBackLight->setLEDCurrent(16); data = evbAccel->getWhoAmI(); printf("Accelerometer who_am_i value = %x \n\r", data); result = evbAccel->getStatus(); printf("status byte = %x \n\r", result); printf("Barometer who_am_i check = %s \n\r", evbBaro->testWhoAmI() ? "TRUE" : "FALSE"); result = evbBaro->getStatus(); printf("status byte = %x \n\r", result); /* * Setup the Accelerometer for 8g range, 14 bit resolution, Noise reduction off, sample rate 1.56 Hz * normal oversample mode, High pass filter off */ evbAccel->setCommonParameters(MMA845x::RANGE_8g,MMA845x::RES_MAX,MMA845x::LN_OFF, MMA845x::DR_1_56,MMA845x::OS_NORMAL,MMA845x::HPF_OFF ); /* * Setup the Barometric sensor for post processed Ambient pressure, 4 samples per data acquisition. * and a sample taken every second when in active mode */ evbBaro->setParameters(MPL3115A2::DATA_NORMAL, MPL3115A2::DM_BAROMETER, MPL3115A2::OR_16, MPL3115A2::AT_1); /* * Setup the Ambient Light Sensor for continuous Ambient Light Sensing, 16 bit resolution, * and 16000 lux range */ evbAmbLight->setMode(ISL29011::ALS_CONT); evbAmbLight->setResolution(ISL29011::ADC_16BIT); evbAmbLight->setRange(ISL29011::RNG_16000); /* * Set the accelerometer for active mode */ evbAccel->activeMode(); /* * Clear the min-max registers in the Barometric Sensor */ evbBaro->clearMinMaxRegs(); evbBackLight->setLEDCurrent(0); /* * Main data acquisition loop */ pckt_time = 10; i = 0; do { evbLCD->startUpdate(); evbLCD->clearBuffer(); /* * Test Accelerometer XYZ data ready bit to see if acquisition complete */ do { osDelay(100); // allows other threads to process result = evbAccel->getStatus(); } while ((result & MMA845x::XYZDR) == 0 ); /* * Retrieve and print out accelerometer data */ accel_data = evbAccel->getXYZ(); sprintf(txtstr,"Accelerometer"); evbLCD->writeText(0,0,font_6x8,txtstr,strlen(txtstr)); sprintf(txtstr, "x = %d", accel_data._x); evbLCD->writeText(20,1,font_6x8,txtstr,strlen(txtstr)); sprintf(txtstr, "y = %d", accel_data._y); evbLCD->writeText(20,2,font_6x8,txtstr,strlen(txtstr)); sprintf(txtstr, "z = %d", accel_data._z ); evbLCD->writeText(20,3,font_6x8,txtstr,strlen(txtstr)); /* * Trigger a Pressure reading */ evbBaro->setParameters(MPL3115A2::DATA_NORMAL, MPL3115A2::DM_BAROMETER, MPL3115A2::OR_16, MPL3115A2::AT_1); evbBaro->triggerOneShot(); /* * Test barometer device status to see if acquisition is complete */ do { osDelay(100); // allows other threads to process result = evbBaro->getStatus(); } while ((result & MPL3115A2::PTDR) == 0 ); /* * Retrieve and print out barometric pressure */ pressure = evbBaro->getBaroData() >> 12; // convert 32 bit signed to 20 bit unsigned value num_whole = pressure >> 2; // 18 bit integer significant num_frac = (pressure & 0x3) * 25; // 2 bit fractional 0.25 per bit sprintf(txtstr,"Press=%ld.%02d Pa", num_whole, num_frac); evbLCD->writeText(0,4,font_6x8,txtstr,strlen(txtstr)); /* * Trigger a Altitude reading */ evbBaro->setParameters(MPL3115A2::DATA_NORMAL, MPL3115A2::DM_ALTIMETER, MPL3115A2::OR_16, MPL3115A2::AT_1); evbBaro->triggerOneShot(); /* * Test barometer device status to see if acquisition is complete */ do { osDelay(100); // allows other threads to process result = evbBaro->getStatus(); } while ((result & MPL3115A2::PTDR) == 0 ); /* * Retrieve and print out altitude and temperature */ baro_data = evbBaro->getAllData(false); baro_data._baro /= 4096; // convert 32 bit signed to 20 bit signed value num_whole = baro_data._baro / 16; // 18 bit signed significant integer num_frac = (baro_data._baro & 0xF) * 625 / 100; // 4 bit fractional .0625 per bit sprintf(txtstr,"Alti=%ld.%03d m", num_whole, num_frac); evbLCD->writeText(0,5,font_6x8,txtstr,strlen(txtstr)); num_whole = baro_data._temp / 16; // 8 bit signed significant integer num_frac = (baro_data._temp & 0x0F) * 625 / 100; // 4 bit fractional .0625 per bit sprintf(txtstr,"Temp=%ld.%03d C", num_whole, num_frac); evbLCD->writeText(0,6,font_6x8,txtstr,strlen(txtstr)); /* * retrieve and print out Ambient Light level */ lux_data = evbAmbLight->getData(); num_whole = lux_data * 24 / 100; // 16000 lux full scale .24 lux per bit num_frac = lux_data * 24 % 100; sprintf(txtstr, "Light=%ld.%02d lux", num_whole, num_frac ); evbLCD->writeText(0,7,font_6x8,txtstr,strlen(txtstr)); evbLCD->endUpdate(); printf("finished iteration %d\n\r",(++i)); if (i % pckt_time == 0) { // check packet counter will send packet every 2-5-10 data collection loops mdot_data.clear(); mdot_data.push_back(0x0E); // key for Current Acceleration 3-Axis Value converts.f_s = accel_data._x *4; // shift data 2 bits while retaining sign mdot_data.push_back(converts.t_u[1]); // get 8 MSB of 14 bit value converts.f_s = accel_data._y * 4; // shift data 2 bits while retaining sign mdot_data.push_back(converts.t_u[1]); // get 8 MSB of 14 bit value converts.f_s = accel_data._z * 4; // shift data 2 bits while retaining sign mdot_data.push_back(converts.t_u[1]); // get 8 MSB of 14 bit value mdot_data.push_back(0x08); // key for Current Pressure Value convertl.f_u = pressure; // pressure data is 20 bits unsigned mdot_data.push_back(convertl.t_u[2]); mdot_data.push_back(convertl.t_u[1]); mdot_data.push_back(convertl.t_u[0]); mdot_data.push_back(0x05); // key for Current Ambient Light Value converts.f_u = lux_data; // data is 16 bits unsigned mdot_data.push_back(converts.t_u[1]); mdot_data.push_back(converts.t_u[0]); mdot_data.push_back(0x0B); // key for Current Temperature Value converts.f_s = baro_data._temp; // temperature is signed 12 bit mdot_data.push_back(converts.t_u[1]); mdot_data.push_back(converts.t_u[0]); if ((mdot_ret = mdot_radio->send(mdot_data)) != mDot::MDOT_OK) { log_error(mdot_radio, "failed to send", mdot_ret); } else { printf("successfully sent data to gateway\r\n"); } } } while(!exit_program | (i > 65000)); evbBaro->triggerOneShot(); do { osDelay(200); // allows other threads to process result = evbBaro->getStatus(); } while ((result & MPL3115A2::PTDR) == 0 ); baro_data = evbBaro->getAllData(true); printf ("minBaro=%ld maxBaro=%ld minTemp=%d maxTemp=%d\n\r", baro_data._minbaro, baro_data._maxbaro, baro_data._mintemp, baro_data._maxtemp); printf("End of Test\n\r"); } /* * Ends program when button 1 pushed */ void pb1ISR(void) { printf("calling ISR for SW1\n\r"); exit_program = true; } /* * changes packet transmit time to every other, every fifth, or every tenth sample when button 2 pushed * Also triggers a thread to transmit a configuration packet */ void pb2ISR(void) { printf("calling ISR for SW2\n\r"); if (pckt_time >= 5) pckt_time /= 2; else pckt_time = 20; thread1->signal_set(0x10); // signal config_pkt_xmit to send packet printf ("pckt_time = %d\n\r",pckt_time); } void log_error(mDot* dot, const char* msg, int32_t retval) { printf("%s - %ld:%s, %s\r\n", msg, retval, mDot::getReturnCodeString(retval).c_str(), dot->getLastError().c_str()); } void config_pkt_xmit (void const *args) { std::vector<uint8_t> data; while (true) { Thread::signal_wait(0x10); // wait for pb2ISR to signal send data.clear(); data.push_back(0x0F); // key for Configuration data (packet transmission timer) data.push_back(pckt_time); if ((mdot_ret = mdot_radio->send(data)) != mDot::MDOT_OK) { log_error(mdot_radio, "failed to send config data", mdot_ret); } else { printf("sent config data to gateway\r\n"); } } }