kumar singh
/
Dealer_23Feb
Dummy Lora Packet Sending
Fork of Dealer_18feb17 by
main.cpp
- Committer:
- NarendraSingh
- Date:
- 2017-02-17
- Revision:
- 16:7703b9d92326
- Parent:
- 15:a448e955b8f3
- Child:
- 17:758fb8454ab0
File content as of revision 16:7703b9d92326:
#include "mbed.h" #include "rtos.h" #include "OBD.h" #include "Lora.h" #include "Accelerometer.h" #include "Beacon.h" #include "main.h" //Datatype typecasting typedef unsigned char uint8; typedef unsigned int uint16; uint8 OBD_Plug_In_Status = FALSE; //peripheral connection DigitalOut led1(LED1); DigitalOut led2(LED2); //Configure Serial port RawSerial LORA_UART(PA_0, PA_1);//USART4_TX->PA_0,USART4_RX->PA_1 : Used for Lora module command sending and reception from gateway RawSerial DEBUG_UART(PA_14, PA_15);//USART1_TX->PA_9,USART1_RX->PA_10 : Used for debugging purpose only RawSerial Beacon_UART(PC_4, PC_5);//USART3_TX->PC4,USART3_RX->PC_5 : Used for sending command to beacon module RawSerial BLE_RECEIVER_UART(PA_9, PA_10);//USART1_TX->PA_0,USART1_RX->PA_1 : Used for Lora module command sending and reception from gateway //InterruptIn OBD_PLUGIN_INTERRUPT_PIN(PC_13); InterruptIn CheckIn_Interrupt(PC_13); uint8 Ticker_Count = 0; //Variable to count for timer overflows uint8 OBD_Plugin_Detected = FALSE; //Create Object for structure of Lora Packet to be sent static uint16 Calculate_Wheels_RPM(uint8* Buffer); void flip_Packet_Sending_Flag(); void Lora_Periodic_Packet_Sending_thread(void const *args); void Lora_Rcvd_Cmd_Processing_thread(void);// const *args); void Enable_CheckIN_Packet_Sending(); const char GET_RSSI[]= {0x41,0x54,0x01,0x01,0x0D,0x0A}; /*************************Accelerometer related definitions***********************************/ //Accelerometer related definitions #define DOUBLE_TAP_INTERRUPT 0x20 #define ACTIVITY_INTERRUPT 0x10 #define INACTIVITY_INTERRUPT 0x08 #define TAP_THRESHOLD 75 #define ACTIVITY_THRESHOLD 64 // THRES_ACT register value 62.5mg/LSB , therfore value 32 indicates 2g activity #define INACTIVITY_THRESHOLD 50 #define DUR_TIME 0x15 // DUR Register value providing maximum time to be held to generate an interrupt #define LATENT_TIME 0x15 // The interrupt latency #define WINDOW_TIME 0x45 // The time of the interrupt window in which the next tap will be detected #define INACTIVITY_VALIDATION_TIME 5 // The time until which the acceleration must be held below the inactivity threshold to generate an inactvity interrupt // Here the value 5 indicates literally 5 secs #define X_AXIS_OFFSET 0x7F #define Y_AXIS_OFFSET 0x7F #define Z_AXIS_OFFSET 0x05 I2C i2c(PB_9, PB_8); InterruptIn activity(PB_0); InterruptIn inactivity(PA_4); // As for now only this is used DigitalOut led(LED1); const int slave_address_acc = 0xA6; char axis_data[6] = {0,0,0,0,0,0}; char interrupt_source[2]; char axis_data_start_address[2] = {0x32, 0}; char intr_source_address[2] = {0x30, 0}; char all_interrupt_clear_command[2] = {0x2E, 0x00}; char all_interrupt_enable_command[2] = {0x2E, 0x38}; char activity_interrupt_disable_command[2] = {0x2E, 0x08}; char inactivity_interrupt_disable_command[2] = {0x2E, 0x30}; char accelerometer_status_registered = 0; unsigned int interrupt_source_duplicate; char threshold_offset_command[5]; char act_inact_time_config_command[8]; char interrupt_enable_command[3]; char tap_axis_enable_command[2]; char baud_rate_command[2]; char data_format_command[2]; char measure_bit_on_command[2]; unsigned char vehicle_speed = 25; // Kmph unsigned char current_speed, previous_speed, speed_threshold = 10; // Kmph unsigned char x_axis, y_axis, z_axis; unsigned char Motion_Detect_Status = FALSE; uint8 OBD_PlugInOut_IOC_Status = FALSE; unsigned char Motion_Type_Detected = MOTION_TYPE_UNKNOWN; //By default set motion type as unknown void Accelerometer_Process_thread();//void const *args) ; #define BLE_RECEIVER_UART_RX_Size 100 uint8 BLE_RxBuffer_End_Pos = 0; char BLE_Receiver_UART_RX_Buffer[BLE_RECEIVER_UART_RX_Size]; //This function is Interrupt routine for detecting motion(acceleartion), i.e. either starts from rest/vehicle stops afeter running or if sudden jurk is detected void interrupt_activity_inactivity() { i2c.write(slave_address_acc, all_interrupt_clear_command, 2); Motion_Detect_Status = TRUE; } /************************************************************************/ uint8 Command_Sent[100]; uint8 Command_Length_Sent; uint8 Checkin_Detect_Status = FALSE; void Extract_Received_Lora_Response(void); char previous_state = 0; char current_state = 0; uint8 OBD_PlugIN_State=0; uint8 OBD_PlugIN_State1=0; uint8 OBD_PlugIN_State2=0; uint8 OBD_PlugIN_Temp_State=1; void OBD_Plug_IN_Interrupt() { if(OBD_PlugIN_State1!=OBD_PlugIN_Temp_State) { OBD_PlugIN_State1=1; OBD_PlugIN_State=!OBD_PlugIN_State; OBD_PlugIN_Temp_State=OBD_PlugIN_State; OBD_PlugInOut_IOC_Status = TRUE; } } void OBD_Plug_OUT_Interrupt() { if(OBD_PlugIN_State2!=OBD_PlugIN_Temp_State) { OBD_PlugIN_State2=0; OBD_PlugIN_State=!OBD_PlugIN_State; OBD_PlugIN_Temp_State=OBD_PlugIN_State; OBD_PlugInOut_IOC_Status = TRUE; } } //This function is Interrupt routine for detecting OBD Plugin and Out void Handle_CheckIn_Interrupt() { OBD_PlugInOut_IOC_Status = TRUE; DEBUG_UART.printf("Movement_Detected"); } //Declare Ticker for sending lora packet Ticker Lora_Packet_Sending_Ticker; void flip_Packet_Sending_Flag(void) { //flip function if(Ticker_Count < 5) { Ticker_Count++; } else { Ticker_Count = 0; Send_Lora_Packet_Flag = TRUE; } } // called every time a byte is received from lora module. void Lora_onDataRx() { while (LORA_UART.readable()) { // while there is data waiting LORA_UART_RX_Buffer[Lora_RxBuffer_End_Pos++] = LORA_UART.getc(); // put it in the buffer //DEBUG_UART.putc(LORA_UART_RX_Buffer[Lora_RxBuffer_End_Pos-1]); if(Lora_RxBuffer_End_Pos >= LORA_UART_RX_Size) { // BUFFER OVERFLOW. What goes here depends on how you want to cope with that situation. // For now just throw everything away. Lora_RxBuffer_End_Pos = 0; } } } // called every time a byte is received from Beacon Module. void Beacon_onDataRx() { while (Beacon_UART.readable()) { // while there is data waiting Beacon_RX_Buffer[Beacon_RxBuffer_End_Pos++] = Beacon_UART.getc(); // put it in the buffer //DEBUG_UART.putc(LORA_UART_RX_Buffer[Beacon_RxBuffer_End_Pos-1]); if(Beacon_RxBuffer_End_Pos >= 100) { // BUFFER OVERFLOW. What goes here depends on how you want to cope with that situation. // For now just throw everything away. Beacon_RxBuffer_End_Pos = 0; } } } void BLE_Receiver_onDataRx(void) { while (BLE_RECEIVER_UART.readable()) { // while there is data waiting BLE_Receiver_UART_RX_Buffer[BLE_RxBuffer_End_Pos++] = BLE_RECEIVER_UART.getc(); // put it in the buffer //DEBUG_UART.putc(BLE_Receiver_UART_RX_Buffer[BLE_RxBuffer_End_Pos-1]); if(BLE_RxBuffer_End_Pos >= BLE_RECEIVER_UART_RX_Size) { // BUFFER OVERFLOW. What goes here depends on how you want to cope with that situation. // For now just throw everything away. BLE_RxBuffer_End_Pos = 0; } } } int main() { DEBUG_UART.baud(115200); BLE_RECEIVER_UART.baud(115200); DEBUG_UART.printf("%s","Debugging started"); BLE_RECEIVER_UART.attach(&BLE_Receiver_onDataRx, Serial::RxIrq); LORA_UART.attach(&Lora_onDataRx, Serial::RxIrq); //Create a thread to read vehicle data //Thread OBD_thread(OBD_Rcvd_Cmd_Processing_thread); Lora_Packet_Sending_Ticker.attach(&flip_Packet_Sending_Flag, 3.0); // call flip_Packet_Sending_Flag function every 5 seconds // OBD_PLUGIN_INTERRUPT_PIN.rise(&Enable_CheckIN_Packet_Sending); // call toggle function on the rising edge //led2_thread is executing concurrently with main at this point CheckIn_Interrupt.fall(&OBD_Plug_IN_Interrupt); CheckIn_Interrupt.rise(&OBD_Plug_OUT_Interrupt); inactivity.rise(interrupt_activity_inactivity); // Attach the address of interrupt_activity_inactivity function to rising edge //Initialize_Beacon_Module(); Lora_Periodic_Packet_Sending(); //Infinite loop for sending and receiving lora response, no return from here } //Function to be called when Interrupt is genearted for motion sensing, checkin void Initialize_Packets_Sent_Count(void) { Motion_Packet_Sent_Count = 0x00; CheckIN_Packet_Sent_Count = 0x00; } uint8 Status_Packet_Wait_Count = 0; void Lora_Periodic_Packet_Sending() { DEBUG_UART.printf("Periodic packet sending intiialized"); Set_Up_Lora_Network_Configuration(); Initialize_lora_Packets(); while (true) { if(Packet_Type_To_Send == HEARTBEAT_TYPE_PACKET) { //check if packet to be sent is Heartbeat packet if(Send_Lora_Packet_Flag) { //Check if packet sending is enabled, Packet should be sent only when enabled after timeout period Status_Packet_Wait_Count++; if(Status_Packet_Wait_Count < 5) { Send_RSSI_Request_Command(GET_RSSI); Send_HeartBeat_Packet(); //call function to send heartbeat packet DEBUG_UART.printf("Sent HeartBeat Packet"); AT_Response_Receive_Status = FAILURE; while(AT_Response_Receive_Status) Get_Lora_Response(); Send_Lora_Packet_Flag = FALSE; DEBUG_UART.printf("Heartbeat Packet Response Received"); } else { Send_RSSI_Request_Command(GET_RSSI); Status_Packet_Wait_Count = 0; Send_Vehicle_Status_Packet(); //call function to send heartbeat packet DEBUG_UART.printf("Sent Status Packet"); AT_Response_Receive_Status = FAILURE; while(AT_Response_Receive_Status) Get_Lora_Response(); Send_Lora_Packet_Flag = FALSE; DEBUG_UART.printf("Status Packet Response Received"); } } } else if(Packet_Type_To_Send == MOTION_TYPE_PACKET) { //check if packet to be sent is motion packet if(Send_Lora_Packet_Flag) { //Check if packet sending isd enabled, Packet should be sent only when enabled after timeout period Send_RSSI_Request_Command(GET_RSSI); Send_Motion_Packet(); DEBUG_UART.printf("Sent Motion Packet"); //call function to send periodic motion packet AT_Response_Receive_Status = FAILURE; while(AT_Response_Receive_Status) Get_Lora_Response(); DEBUG_UART.printf("Motion Packet Response Received"); Send_Lora_Packet_Flag = FALSE; if(Motion_Packet_Sent_Count >= 5) { //Stop Sending Motion Packets if after sending for 2 minute DEBUG_UART.printf("Packet Type Sending Changed to HeartBeat"); Motion_Packet_Sent_Count = 0; Packet_Type_To_Send = HEARTBEAT_TYPE_PACKET; //Set Packet type to send as heartbeat packet Lora_Packet_Sending_Ticker.detach(); //destroy ticker Lora_Packet_Sending_Ticker.attach(&flip_Packet_Sending_Flag, 10.0); //create new ticker } } } else if(Packet_Type_To_Send == CHECKIN_TYPE_PACKET) { //check if packet to be sent is Checkin packet if(Send_Lora_Packet_Flag) { //Check if packet sending isd enabled, Packet should be sent only when enabled after timeout period DEBUG_UART.printf("Sent Beacon ID request"); Send_RSSI_Request_Command(GET_RSSI); Send_CheckIN_Packet(); //call function to send periodic checkIn packet DEBUG_UART.printf("Sent Checkin Packet"); AT_Response_Receive_Status = FAILURE; while(AT_Response_Receive_Status) Get_Lora_Response(); Send_Lora_Packet_Flag = FALSE; DEBUG_UART.printf("Checkin Packet Response Received"); if(CheckIN_Packet_Sent_Count >= 5) { //Stop Sending Motion Packets if after sending for 2 minute DEBUG_UART.printf("Packet Type Sending Changed to HeartBeat"); CheckIN_Packet_Sent_Count = 0; Packet_Type_To_Send = HEARTBEAT_TYPE_PACKET; //Set Packet type to send as heartbeat packet Initialize_Packets_Sent_Count(); } } } if(OBD_PlugInOut_IOC_Status) { //Check if Accelerometer Interrupt is generated //Enable_CheckIN_Packet_Sending(); //Get_Acceleration_Type(); OBD_PlugInOut_IOC_Status = FALSE; Packet_Type_To_Send = CHECKIN_TYPE_PACKET; Send_Lora_Packet_Flag = TRUE; wait(1); //wait for 1sec to avoid detecting plugin debounce } if(Motion_Detect_Status) { //Check if Accelerometer Interrupt is generated Get_Acceleration_Type(); Motion_Detect_Status = FALSE; } } } void Get_Acceleration_Type(void) { Packet_Type_To_Send = MOTION_TYPE_PACKET; //whenever acceleration is detected change the packet type to be sent to motion type Lora_Packet_Sending_Ticker.detach(); //destroy ticker Lora_Packet_Sending_Ticker.attach(&flip_Packet_Sending_Flag, 5.0); //create new ticker, time inetrval value to be changed Send_Lora_Packet_Flag = 1; //set flag to send motion packet as soon as motion is detecetd Motion_Lora_Packet.Acceleration_Type = Motion_Type_Detected; //Read Type of motion deteceted //write code to read acceleration value for every 10sec after any of the acceleration is found } /* //This function is used to enable checkin packet sending once OBD device is plugged in void Enable_CheckIN_Packet_Sending() { // Enable_CheckIN_Packet_Sending = TRUE; //set status to true if(Command_Received[0] == 0xFE) //check start of frame of packet received. every packet must start with 0xFE { if(Calculate_Lora_Frame_FCS((Command_Received + 1),(Command_Length + 1)) == (Command_Received[Command_Length + 2])) //Check for packet inegrity by checking FCS { if((Command_Received[0] == SET_BEACON_CMD0) && (Command_Received[1] == SET_BEACON_CMD1)) //Check if command is received for setting beacon parameters { Process_Beacon_Command_Received((Command_Received + 2)); } } } } */ void Send_RSSI_Request_Command(const char* Command_To_Send) { BLE_RECEIVER_UART.printf(Command_To_Send); Get_Fixed_Beacon_RSSI(); } void Get_Fixed_Beacon_RSSI(void) { uint8 i; uint8 Temp_Pos=0; Fixed_Beacon_Packet.Parking1_Beacon_ID[0] = 0xA0; Fixed_Beacon_Packet.Parking1_Beacon_ID[1] = 0xAC; Fixed_Beacon_Packet.Parking1_Beacon_ID[2] = 0x51; Fixed_Beacon_Packet.Parking1_Beacon_ID[3] = 0x3F; Fixed_Beacon_Packet.Parking1_Beacon_ID[4] = 0x91; Fixed_Beacon_Packet.Parking1_Beacon_ID[5] = 0xE0; Fixed_Beacon_Packet.Parking1_Beacon_Minor = 0x0002; Fixed_Beacon_Packet.Parking1_Beacon_Signal_Strength = 0xC3; Fixed_Beacon_Packet.Parking2_Beacon_ID[0] = 0xDC; Fixed_Beacon_Packet.Parking2_Beacon_ID[1] = 0xA3; Fixed_Beacon_Packet.Parking2_Beacon_ID[2] = 0x6D; Fixed_Beacon_Packet.Parking2_Beacon_ID[3] = 0x30; Fixed_Beacon_Packet.Parking2_Beacon_ID[4] = 0x38; Fixed_Beacon_Packet.Parking2_Beacon_ID[5] = 0xDF; Fixed_Beacon_Packet.Parking2_Beacon_Minor = 0x0004; Fixed_Beacon_Packet.Parking2_Beacon_Signal_Strength = 0xB4; Fixed_Beacon_Packet.Parking3_Beacon_ID[0] = 0x6C; Fixed_Beacon_Packet.Parking3_Beacon_ID[1] = 0x29; Fixed_Beacon_Packet.Parking3_Beacon_ID[2] = 0xB6; Fixed_Beacon_Packet.Parking3_Beacon_ID[3] = 0x27; Fixed_Beacon_Packet.Parking3_Beacon_ID[4] = 0x3A; Fixed_Beacon_Packet.Parking3_Beacon_ID[5] = 0xC9; Fixed_Beacon_Packet.Parking3_Beacon_Minor = 0x0001; Fixed_Beacon_Packet.Parking3_Beacon_Signal_Strength = 0xB0; /* while(true) { if(Temp_Pos < Lora_RxBuffer_End_Pos) { if(BLE_Receiver_UART_RX_Buffer[Temp_Pos] == 0x0D) { if(BLE_Receiver_UART_RX_Buffer[Temp_Pos+1] == 0x0A) { Temp_Pos = 2; for(i=0; i<6; i++) Fixed_Beacon_Packet.Parking1_Beacon_ID[i] = BLE_Receiver_UART_RX_Buffer[Temp_Pos++]; Fixed_Beacon_Packet.Parking1_Beacon_Minor = ((BLE_Receiver_UART_RX_Buffer[Temp_Pos++]<<8)|(BLE_Receiver_UART_RX_Buffer[Temp_Pos++])); Fixed_Beacon_Packet.Parking1_Beacon_Signal_Strength = BLE_Receiver_UART_RX_Buffer[Temp_Pos++]; for(i=0; i<6; i++) Fixed_Beacon_Packet.Parking2_Beacon_ID[i] = BLE_Receiver_UART_RX_Buffer[Temp_Pos++]; Fixed_Beacon_Packet.Parking2_Beacon_Minor = ((BLE_Receiver_UART_RX_Buffer[Temp_Pos++]<<8)|(BLE_Receiver_UART_RX_Buffer[Temp_Pos++])); Fixed_Beacon_Packet.Parking2_Beacon_Signal_Strength = BLE_Receiver_UART_RX_Buffer[Temp_Pos++]; for(i=0; i<6; i++) Fixed_Beacon_Packet.Parking3_Beacon_ID[i] = BLE_Receiver_UART_RX_Buffer[Temp_Pos++]; Fixed_Beacon_Packet.Parking3_Beacon_Minor = ((BLE_Receiver_UART_RX_Buffer[Temp_Pos++]<<8)|(BLE_Receiver_UART_RX_Buffer[Temp_Pos++])); Fixed_Beacon_Packet.Parking3_Beacon_Signal_Strength = BLE_Receiver_UART_RX_Buffer[Temp_Pos++]; break; } Temp_Pos++; } else Temp_Pos++; } else Temp_Pos = 0x00; }*/ }