ATT_SMS_System for home security system
Dependencies: FXOS8700CQ MODSERIAL mbed-rtos mbed
Fork of ATT_Cellular_IOT_Button by
Diff: main.cpp
- Revision:
- 68:d38834307b17
- Parent:
- 64:09004cd610df
- Child:
- 70:e25fe7e5488a
diff -r 11db02bb93e1 -r d38834307b17 main.cpp --- a/main.cpp Thu Aug 04 16:24:13 2016 +0000 +++ b/main.cpp Tue Aug 09 19:23:11 2016 +0000 @@ -1,8 +1,7 @@ -#include "mbed.h" +#include "mbed.h" #include <cctype> #include <string> #include "config_me.h" -#include "sensors.h" #include "cell_modem.h" #include "hardware.h" @@ -13,89 +12,48 @@ DigitalOut led_red(LED_RED); DigitalOut led_blue(LED_BLUE); +// interrupts for buttons +InterruptIn sw3(SW3); +InterruptIn sw2(SW2); -//******************************************************************************************************************************************** -//* Create string with sensor readings that can be sent to flow as an HTTP get -//******************************************************************************************************************************************** -K64F_Sensors_t SENSOR_DATA = +// flag - must be volatile as changes within ISR +// g_ prefix makes it easier to distinguish it as global +volatile int g_sw3_flag = 0; +volatile int g_sw2_flag = 0; + +// SW2 event-triggered interrupt +void sw2_isr_down() { - .Temperature = "0", - .Humidity = "0", - .AccelX = "0", - .AccelY = "0", - .AccelZ = "0", - .MagnetometerX = "0", - .MagnetometerY = "0", - .MagnetometerZ = "0", - .AmbientLightVis = "0", - .AmbientLightIr = "0", - .UVindex = "0", - .Proximity = "0", - .Temperature_Si7020 = "0", - .Humidity_Si7020 = "0", - .Virtual_Sensor1 = "0", - .Virtual_Sensor2 = "0", - .Virtual_Sensor3 = "0", - .Virtual_Sensor4 = "0", - .Virtual_Sensor5 = "0", - .Virtual_Sensor6 = "0", - .Virtual_Sensor7 = "0", - .Virtual_Sensor8 = "0" -}; + g_sw2_flag = 1; // set flag in ISR +} -void GenerateModemString(char * modem_string) +void sw2_isr_up() { - switch(iSensorsToReport) - { - case TEMP_HUMIDITY_ONLY: - { - sprintf(modem_string, "GET %s%s?serial=%s&temp=%s&humidity=%s %s%s\r\n\r\n", FLOW_BASE_URL, FLOW_INPUT_NAME, FLOW_DEVICE_NAME, SENSOR_DATA.Temperature, SENSOR_DATA.Humidity, FLOW_URL_TYPE, MY_SERVER_URL); - break; - } - case TEMP_HUMIDITY_ACCELEROMETER: - { - sprintf(modem_string, "GET %s%s?serial=%s&temp=%s&humidity=%s&accelX=%s&accelY=%s&accelZ=%s %s%s\r\n\r\n", FLOW_BASE_URL, FLOW_INPUT_NAME, FLOW_DEVICE_NAME, SENSOR_DATA.Temperature, SENSOR_DATA.Humidity, SENSOR_DATA.AccelX,SENSOR_DATA.AccelY,SENSOR_DATA.AccelZ, FLOW_URL_TYPE, MY_SERVER_URL); - break; - } - case TEMP_HUMIDITY_ACCELEROMETER_PMODSENSORS: - { - sprintf(modem_string, "GET %s%s?serial=%s&temp=%s&humidity=%s&accelX=%s&accelY=%s&accelZ=%s&proximity=%s&light_uv=%s&light_vis=%s&light_ir=%s %s%s\r\n\r\n", FLOW_BASE_URL, FLOW_INPUT_NAME, FLOW_DEVICE_NAME, SENSOR_DATA.Temperature, SENSOR_DATA.Humidity, SENSOR_DATA.AccelX,SENSOR_DATA.AccelY,SENSOR_DATA.AccelZ, SENSOR_DATA.Proximity, SENSOR_DATA.UVindex, SENSOR_DATA.AmbientLightVis, SENSOR_DATA.AmbientLightIr, FLOW_URL_TYPE, MY_SERVER_URL); - break; - } - case TEMP_HUMIDITY_ACCELEROMETER_PMODSENSORS_VIRTUALSENSORS: - { - sprintf(modem_string, "GET %s%s?serial=%s&temp=%s&humidity=%s&accelX=%s&accelY=%s&accelZ=%s&proximity=%s&light_uv=%s&light_vis=%s&light_ir=%s&virt_sens1=%s&virt_sens2=%s&virt_sens3=%s&virt_sens4=%s&virt_sens5=%s&virt_sens6=%s&virt_sens7=%s&virt_sens8=%s %s%s\r\n\r\n", FLOW_BASE_URL, FLOW_INPUT_NAME, FLOW_DEVICE_NAME, SENSOR_DATA.Temperature, SENSOR_DATA.Humidity, SENSOR_DATA.AccelX,SENSOR_DATA.AccelY,SENSOR_DATA.AccelZ, SENSOR_DATA.Proximity, SENSOR_DATA.UVindex, SENSOR_DATA.AmbientLightVis, SENSOR_DATA.AmbientLightIr, SENSOR_DATA.Virtual_Sensor1, SENSOR_DATA.Virtual_Sensor2, SENSOR_DATA.Virtual_Sensor3, SENSOR_DATA.Virtual_Sensor4, SENSOR_DATA.Virtual_Sensor5, SENSOR_DATA.Virtual_Sensor6, SENSOR_DATA.Virtual_Sensor7, SENSOR_DATA.Virtual_Sensor8, FLOW_URL_TYPE, MY_SERVER_URL); - break; - } - default: - { - sprintf(modem_string, "Invalid sensor selected\r\n\r\n"); - break; - } - } //switch(iSensorsToReport) -} //GenerateModemString - - -//Periodic timer -Ticker OneMsTicker; -volatile bool bTimerExpiredFlag = false; -int OneMsTicks = 0; -int iTimer1Interval_ms = 1000; -//******************************************************************************************************************************************** -//* Periodic 1ms timer tick -//******************************************************************************************************************************************** -void OneMsFunction() + g_sw2_flag = 0; +} + +// SW3 event-triggered interrupt +void sw3_isr_down() +{ + g_sw3_flag = 1; // set flag in ISR +} + +void sw3_isr_up() { - OneMsTicks++; - if ((OneMsTicks % iTimer1Interval_ms) == 0) - { - bTimerExpiredFlag = true; - } -} //OneMsFunction() + g_sw3_flag = 0; +} + +void GenerateModemString(char * modem_string, char btn1, char btn2) +{ + sprintf(modem_string, "serial:%s button1:%c button2:%c\r\n", + M2X_DEVICE_SERIAL, btn1, btn2 + ); +} //GenerateModemString + //******************************************************************************************************************************************** //* Set the RGB LED's Color -//* LED Color 0=Off to 7=White. 3 bits represent BGR (bit0=Red, bit1=Green, bit2=Blue) +//* LED Color 0=Off to 7=White. 3 bits represent BGR (bit0=Red, bit1=Green, bit2=Blue) //******************************************************************************************************************************************** void SetLedColor(unsigned char ucColor) { @@ -106,81 +64,100 @@ } //SetLedColor() //******************************************************************************************************************************************** -//* Process the JSON response. In this example we are only extracting a LED color. +//* Process the JSON response. In this example we are only extracting a LED color. //******************************************************************************************************************************************** bool parse_JSON(char* json_string) { char* beginquote; char token[] = "\"LED\":\""; beginquote = strstr(json_string, token ); - if ((beginquote != 0)) - { + if ((beginquote != 0)) { char cLedColor = beginquote[strlen(token)]; PRINTF(GRN "LED Found : %c" DEF "\r\n", cLedColor); - switch(cLedColor) - { - case 'O': - { //Off + switch(cLedColor) { + case 'O': { + //Off SetLedColor(0); break; } - case 'R': - { //Red + case 'R': { + //Red SetLedColor(1); break; } - case 'G': - { //Green + case 'G': { + //Green SetLedColor(2); break; } - case 'Y': - { //Yellow + case 'Y': { + //Yellow SetLedColor(3); break; } - case 'B': - { //Blue + case 'B': { + //Blue SetLedColor(4); break; } - case 'M': - { //Magenta + case 'M': { + //Magenta SetLedColor(5); break; } - case 'T': - { //Turquoise + case 'T': { + //Turquoise SetLedColor(6); break; } - case 'W': - { //White + case 'W': { + //White SetLedColor(7); break; } - default: - { + default: { break; } } //switch(cLedColor) return true; - } - else - { + } else { return false; } } //parse_JSON -int main() { - static unsigned ledOnce = 0; +void send_button_data(char btn1, char btn2) +{ + char modem_string[512]; + GenerateModemString(&modem_string[0], btn1, btn2); + char myJsonResponse[512]; + if (cell_modem_Sendreceive(&modem_string[0], &myJsonResponse[0])) { + if (true) { + //ledOnce = 1; + SetLedColor(0x2); //Green + } + parse_JSON(&myJsonResponse[0]); + } +} + +int main() +{ + //static unsigned ledOnce = 0; pc.baud(115200); - PRINTF(GRN "Hello World from the Cellular IoT Kit!\r\n\r\n"); + PRINTF(GRN "Hello World from the Cellular IoT Kit!\r\n"); + PRINTF(GRN "Cellular IoT Buttons!\r\n\r\n"); - //Initialize the I2C sensors that are present - sensors_init(); - read_sensors(); + // SW have a pull-up resistor, so the pin will be at 3.3 V by default + // and fall to 0 V when pressed. We therefore need to look for a falling edge + // on the pin to fire the interrupt + sw3.fall(&sw3_isr_down); + sw3.rise(&sw3_isr_up); + sw2.fall(&sw2_isr_down); + sw2.rise(&sw2_isr_up); + // since SW have an external pull-up, we should disable to internal pull-down + // resistor that is enabled by default using InterruptIn + sw3.mode(PullNone); + sw2.mode(PullNone); // Set LED to RED until init finishes SetLedColor(0x1); //Red @@ -190,31 +167,25 @@ // Set LED BLUE for partial init SetLedColor(0x4); //Blue - //Create a 1ms timer tick function: - iTimer1Interval_ms = SENSOR_UPDATE_INTERVAL_MS; - OneMsTicker.attach(OneMsFunction, 0.001f) ; - // Send and receive data perpetually while(1) { - #ifdef USE_VIRTUAL_SENSORS - ProcessUsbInterface(); - #endif - if (bTimerExpiredFlag) - { - bTimerExpiredFlag = false; - read_sensors(); //read available external sensors from a PMOD and the on-board motion sensor - char modem_string[512]; - GenerateModemString(&modem_string[0]); - char myJsonResponse[512]; - if (cell_modem_Sendreceive(&modem_string[0], &myJsonResponse[0])) - { - if (!ledOnce) - { - ledOnce = 1; - SetLedColor(0x2); //Green - } - parse_JSON(&myJsonResponse[0]); - } - } //bTimerExpiredFlag + if (g_sw3_flag) { + printf("%s\n","SW3 Button"); + led_green = 0; + send_button_data('0','1'); + } else { + led_green = 1; + } + + if (g_sw2_flag) { + printf("%s\n","SW2 Button"); + led_blue = 0; + send_button_data('1','0'); + } else { + led_blue = 1; + } + + // put the MCU to sleep until an interrupt wakes it up + sleep(); } //forever loop }