MicroAPRS/Modem/main.c

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//////////////////////////////////////////////////////
// First things first, all the includes we need //
//////////////////////////////////////////////////////
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#include <cpu/irq.h> // Interrupt functionality from BertOS
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#include "cfg/debug.h" // Debug configuration from BertOS
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#include <drv/ser.h> // Serial driver from BertOS
#include <drv/timer.h> // Timer driver from BertOS
#include <stdio.h> // Standard input/output
#include <string.h> // String operations
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#include "afsk.h" // Header for AFSK modem
#include "protocol/mp1.h" // Header for MP.1 protocol
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//////////////////////////////////////////////////////
// A few definitions //
//////////////////////////////////////////////////////
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static Afsk afsk; // Declare a AFSK modem struct
static MP1 mp1; // Declare a protocol struct
static Serial ser; // Declare a serial interface struct
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#define ADC_CH 0 // Define which channel (pin) we want
// for the ADC (this is A0 on arduino)
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#define TEST_TX false // Whether we should send test packets
// periodically, plus what to send:
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#define TEST_PACKET "Test MP1 AFSK Packet. Test123."
#define TEST_TX_INTERVAL 10000L
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static uint8_t serialBuffer[MP1_MAX_FRAME_LENGTH]; // This is a buffer for incoming serial data
static int sbyte; // For holding byte read from serial port
static int serialLen = 0; // Counter for counting length of data from serial
static bool sertx = false; // Flag signifying whether it's time to send data
// Received on the serial port.
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//////////////////////////////////////////////////////
// And here comes the actual program :) //
//////////////////////////////////////////////////////
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// This is a callback we register with the protocol,
// so we can process each packet as they are decoded.
// Right now it just prints the packet to the serial port.
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static void mp1Callback(struct MP1Packet *packet) {
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kfile_printf(&ser.fd, "%.*s\n", packet->dataLength, packet->data);
//kprintf("%.*s\n", packet->dataLength, packet->data);
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}
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// Simple initialization function.
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static void init(void)
{
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// Enable interrupts
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IRQ_ENABLE;
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// Initialize BertOS debug bridge
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// kdbg_init();
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// Initialize hardware timers
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timer_init();
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// Initialize serial comms on UART0,
// which is the hardware serial on arduino
ser_init(&ser, SER_UART0);
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ser_setbaudrate(&ser, 115200);
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// Create a modem context
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afsk_init(&afsk, ADC_CH);
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// ... and a protocol context with the modem
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mp1Init(&mp1, &afsk.fd, mp1Callback);
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// That's all!
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}
int main(void)
{
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// Start by running the main initialization
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init();
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// Record the current tick count for time-keeping
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ticks_t start = timer_clock();
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// Go into ye good ol' infinite loop
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while (1)
{
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// First we instruct the protocol to check for
// incoming data
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mp1Poll(&mp1);
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// We then read a byte from the serial port.
// Notice that we use "_nowait" since we can't
// have this blocking execution until a byte
// comes in.
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sbyte = ser_getchar_nowait(&ser);
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// If there was actually some data waiting for us
// there, let's se what it tastes like :)
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if (sbyte != EOF) {
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// If we have not yet surpassed the maximum frame length
// and the byte is not a "transmit" (newline) character,
// we should store it for transmission.
if ((serialLen < MP1_MAX_FRAME_LENGTH) && (sbyte != 138)) {
// Put the read byte into the buffer;
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serialBuffer[serialLen] = sbyte;
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// Increment the read length counter
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serialLen++;
} else {
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// If one of the above conditions were actually the
// case, it means we have to transmit, se we set
// transmission flag to true.
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sertx = true;
}
}
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// Check whether we should send data in our serial buffer
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if (sertx) {
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// If we should, pass the buffer to the protocol's
// send function.
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mp1Send(&mp1, serialBuffer, serialLen);
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// Reset the transmission flag and length counter
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sertx = false;
serialLen = 0;
}
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// Periodically send test data if we should do so
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if (TEST_TX && timer_clock() - start > ms_to_ticks(TEST_TX_INTERVAL)) {
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// Reset the timer counter;
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start = timer_clock();
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// And send a test packet!
mp1Send(&mp1, TEST_PACKET, sizeof(TEST_PACKET));
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}
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}
return 0;
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}