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#include "defines.h"
#include "xbee.h"
#include <string.h>
#pragma udata XBEE_BUFFER
static XBEE_DATA xbee_data;
#pragma udata
static XBEE_DATA *xbee_data_p = &xbee_data;
static void *xbee_data_frame;
static void *xbee_frame;
/* Initialize variables used by this library */
void XBee_Init() {
XBEE_CTS_TRIS = 1; // RB0 is CTS, set by XBee chip
XBEE_RTS_TRIS = 0; // RB1 is RTS, set by PIC
XBEE_CTS_LAT = 0; // Pin set high to signal stop sending data to XBee
XBEE_RTS_LAT = 0; // Pin set high to indicate stop sending data to PIC
xbee_data_p->dataind = 0;
xbee_data_p->checksum_sum = 0;
xbee_data_p->frame_rdy = 0;
xbee_data_p->escape_flag = 0;
xbee_data_p->read_state = XBEE_STATE_READ_START;
// memset(&xbee_data, 0, 32);
// Grab a pointer to where the unique frame array starts
xbee_data_frame = &(xbee_data_p->rcv_frame.FRAME);
xbee_frame = &(xbee_data_p->rcv_frame);
}
/* Here we handle the serial input from the UART interrupt */
void XBee_Serial_In(unsigned char c) {
// For some reason writing the length straight to xbee_data doesnt seem to work
// so we work around it by pointing to the length bytes directly
XBEE_ADDRESS_16 *length = xbee_frame + 1;
#ifdef XBEE_USE_ESCAPE_CHAR
if (c == XBEE_ESCAPE_CHAR) {
// Next byte needs is an escaped char
xbee_data_p->escape_flag = 1;
return;
}
if (xbee_data_p->escape_flag) {
// XOR byte with 0x20 to get escaped char
c ^= XBEE_ESCAPE_VAL;
xbee_data_p->escape_flag = 0;
}
#endif
// Reset on start bit and start saving data
if (c == XBEE_START_DELIMITER) {
// On detect start delimiter, clear out initial array
xbee_data_p->dataind = 0;
xbee_data_p->checksum_sum = 0;
xbee_data_p->frame_rdy = 0;
xbee_data_p->read_state = XBEE_STATE_READ_LENGTH_HIGH;
*((unsigned char *)xbee_frame) = XBEE_START_DELIMITER;
} else {
switch (xbee_data_p->read_state) {
case XBEE_STATE_READ_START:
// Do nothing and wait till start bit is read
break;
case XBEE_STATE_READ_LENGTH_HIGH:
// Read length (MSB)
length->INT_16.char_value[1] = c;
xbee_data_p->read_state = XBEE_STATE_READ_LENGTH_LOW;
break;
case XBEE_STATE_READ_LENGTH_LOW:
// Read length (LSB)
length->INT_16.char_value[0] = c;
xbee_data_p->read_state = XBEE_STATE_READ_FRAME_DATA;
break;
case XBEE_STATE_READ_FRAME_DATA:
// Read unique frame data
if (xbee_data_p->dataind < xbee_data_p->rcv_frame.length.INT_16.int_value) {
*((char*) xbee_data_frame + xbee_data_p->dataind) = c;
xbee_data_p->checksum_sum += c;
xbee_data_p->dataind++;
}
// If total length is read, the next byte is the expected checksum
if (xbee_data_p->dataind == xbee_data_p->rcv_frame.length.INT_16.int_value) {
xbee_data_p->read_state = XBEE_STATE_READ_CHECKSUM;
}
break;
case XBEE_STATE_READ_CHECKSUM:
// Calculate and compare checksum
if (0xFF - xbee_data_p->checksum_sum == c) {
// Frame was recieved successfully
xbee_data_p->frame_rdy = 1;
// XBee_Process_Received_Frame();
} else {
// If checksum does not match, drop frame
DBG_PRINT_XBEE("XBEE: checksum mismatch\r\n");
}
xbee_data_p->read_state = XBEE_STATE_READ_START;
break;
}
}
}
/* This processes the frame data within the interrupt. Dont use this. */
void XBee_Process_Received_Frame() {
// DBG_PRINT_XBEE("Length: %d\r\n", xbee_data_p->rcv_frame.length.INT_16.int_value);
// Here we process the received frame depending on the frame type
switch (*((unsigned char *) xbee_data_frame)) {
case XBEE_RX_AT_COMMAND_RESPONSE:
DBG_PRINT_XBEE("XBEE: parsing recieved AT command response frame\r\n");
break;
case XBEE_RX_DATA_PACKET:
DBG_PRINT_XBEE("XBEE: parsing recieved data frame\r\n");
break;
case XBEE_RX_DATA_TX_STATUS:
DBG_PRINT_XBEE("XBEE: parsing recieved TX status frame\r\n");
break;
case XBEE_RX_IO_DATA_SAMPLE:
DBG_PRINT_XBEE("XBEE: parsing recieved IO data sample frame\r\n");
break;
case XBEE_RX_EXPLICIT_COMMAND:
DBG_PRINT_XBEE("XBEE: parsing recieved explicit command frame\r\n");
break;
case XBEE_RX_REMOTE_AT_COMMAND_RESPONSE:
DBG_PRINT_XBEE("XBEE: parsing recieved remote AT command frame\r\n");
break;
case XBEE_RX_ROUTE_RECORD:
DBG_PRINT_XBEE("XBEE: parsing recieved route record frame\r\n");
break;
case XBEE_RX_NODE_IDENTIFICATION:
DBG_PRINT_XBEE("XBEE: parsing recieved node identification frame\r\n");
break;
case XBEE_RX_FRAME_MODEM_STATUS:
DBG_PRINT_XBEE("XBEE: parsing recieved modem status frame\r\n");
break;
default:
DBG_PRINT_XBEE("XBEE: (ERROR) unrecognized frame type\r\n");
}
}
unsigned int XBee_Get_Received_Frame(unsigned char *frame) {
if (!xbee_data_p->frame_rdy) {
return 0;
} else {
memcpy(frame, xbee_data_frame, xbee_data_p->rcv_frame.length.INT_16.int_value);
xbee_data_p->frame_rdy = 0; // Reset frame ready status
return xbee_data_p->rcv_frame.length.INT_16.int_value;
}
}
void XBee_Process_Transmit_Frame(unsigned char *data, unsigned char length) {
#ifdef XBEE_USE_ESCAPE_CHAR
unsigned int i = 0;
unsigned char chksum = 0;
// Write the start bit and length
UART1_WriteC(XBEE_START_DELIMITER);
UART1_WriteC(0);
UART1_WriteC(length);
// Write the frame data
for (i = 0; i < length; i++) {
chksum += data[i];
if (data[i] == XBEE_START_DELIMITER || \
data[i] == XBEE_ESCAPE_CHAR || \
data[i] == XBEE_XON || \
data[i] == XBEE_XOFF) {
UART1_WriteC(XBEE_ESCAPE_CHAR);
UART1_WriteC(data[i] ^ XBEE_ESCAPE_VAL);
} else {
UART1_WriteC(data[i]);
}
}
// Write the checksum
if (chksum == XBEE_START_DELIMITER || \
chksum == XBEE_ESCAPE_CHAR || \
chksum == XBEE_XON || \
chksum == XBEE_XOFF) {
UART1_WriteC(XBEE_ESCAPE_CHAR);
UART1_WriteC(chksum ^ XBEE_ESCAPE_VAL);
} else {
UART1_WriteC(0xFF - chksum);
}
#else
unsigned int i = 0;
unsigned char chksum = 0;
UART1_WriteC(XBEE_START_DELIMITER);
UART1_WriteC(0);
UART1_WriteC(length);
for (i = 0; i < length; i++) {
chksum += data[i];
UART1_WriteC(data[i]);
}
UART1_WriteC(0xFF - chksum);
#endif
}
void XBee_Set_RTS(unsigned char c) {
if (c) {
XBEE_RTS_LAT = 1; // Set high to stop receiving data
} else {
XBEE_RTS_LAT = 0; // Set low to resume receiving data
}
}
unsigned char XBee_Read_CTS() {
unsigned char c = XBEE_CTS_PORT;
if (c) {
return 0x1; // High indicates stop sending data
} else {
return 0x0; // Low indicates ok to send data
}
}
void XBee_ConvertEndian64(XBEE_ADDRESS_64 *src) {
char tmp[2];
tmp[0] = src->UPPER_32.char_value[3];
tmp[1] = src->UPPER_32.char_value[2];
src->UPPER_32.char_value[3] = src->UPPER_32.char_value[0];
src->UPPER_32.char_value[2] = src->UPPER_32.char_value[1];
src->UPPER_32.char_value[1] = tmp[1];
src->UPPER_32.char_value[0] = tmp[0];
tmp[0] = src->LOWER_32.char_value[3];
tmp[1] = src->LOWER_32.char_value[2];
src->LOWER_32.char_value[3] = src->LOWER_32.char_value[0];
src->LOWER_32.char_value[2] = src->LOWER_32.char_value[1];
src->LOWER_32.char_value[1] = tmp[1];
src->LOWER_32.char_value[0] = tmp[0];
}
void XBee_ConvertEndian16(XBEE_ADDRESS_16 *src) {
char tmp;
tmp = src->INT_16.char_value[0];
src->INT_16.char_value[0] = src->INT_16.char_value[1];
src->INT_16.char_value[1] = tmp;
}