Library used to receive data through a wireless channel using XBEE.
Dependencies: mbed
Fork of frdm_xbee by
xbee.cpp
- Committer:
- josepesado
- Date:
- 2014-10-18
- Revision:
- 0:06bd131cf762
- Child:
- 1:11f87e6215f7
File content as of revision 0:06bd131cf762:
#include "mbed.h" #define XBEE_SERVER 1 #define XBEE_CLIENT 1 #define SERIAL_BAUDRATE 115200 #define BUFFER_SIZE 9 #define BUFFER_FORMAT "%X %X %X %X %X %X %X %X %X" #define BUFFER_FORMAT_RX "%c%c%c%c%c%c%c%c%c" #define BUFFER_RX_DATA_WR &CommandRx[0],&CommandRx[1],&CommandRx[2],&CommandRx[3],\ &CommandRx[4],&CommandRx[5],&CommandRx[6],&CommandRx[7],\ &CommandRx[8] #define BUFFER_RX_DATA_RD CommandRx[0],CommandRx[1],CommandRx[2],CommandRx[3],\ CommandRx[4],CommandRx[5],CommandRx[6],CommandRx[7],\ CommandRx[8] Serial PC(USBTX, USBRX); DigitalOut Indicator(LED_GREEN); int XBee_u16Loop; #if XBEE_SERVER == 1 Serial XBeeServer(PTC17, PTC16); /* Tx, Rx*/ char CommandTx[BUFFER_SIZE+1]={0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, '\0'}; DigitalOut RSTServer(PTB9); int XBee_u16TxResult; int XBee_u8TxRq; #endif #if XBEE_CLIENT == 1 Serial XBeeClient(PTE24, PTE25); /* Tx, Rx*/ DigitalOut RSTClient(PTA1); char CommandRx[BUFFER_SIZE+1]; volatile int XBee_u8RxResult; int XBee_boRxIndication = 0; int XBee_boRxAllowed = 1; /* This function is called when a character goes into the RX buffer.*/ void XBeeClientRx() { if(XBee_boRxAllowed == 1) { PC.printf("\r\nRx... "); XBee_u8RxResult = 0; XBee_u8RxResult = XBeeClient.scanf( BUFFER_FORMAT_RX, BUFFER_RX_DATA_WR ); if(XBee_u8RxResult>0) { XBee_boRxIndication = 1; } PC.printf("\r\nRx done [%i]. ",XBee_u8RxResult); PC.printf( BUFFER_FORMAT, BUFFER_RX_DATA_RD ); } return; } #endif void XBee_vInit(void) { XBee_u16Loop = 0; PC.baud(SERIAL_BAUDRATE); #if XBEE_SERVER == 1 PC.printf("\r\nSetting server XBee..."); XBeeServer.baud(SERIAL_BAUDRATE); XBee_u16TxResult = 0; XBee_u8TxRq = 0; #endif #if XBEE_CLIENT == 1 PC.printf("\r\nSetting client XBee..."); XBeeClient.baud(SERIAL_BAUDRATE); XBeeClient.attach(&XBeeClientRx, Serial::RxIrq); XBee_u8RxResult = 0; XBee_boRxAllowed = 1; #endif /* XBee reset*/ #if XBEE_SERVER == 1 RSTServer = 0; #endif #if XBEE_CLIENT == 1 RSTClient = 0; #endif wait_ms(1); #if XBEE_SERVER == 1 RSTServer = 1; #endif #if XBEE_CLIENT == 1 RSTClient = 1; #endif wait_ms(1); } void XBee_vMain(void) { XBee_u16Loop++; PC.printf("\r\n[%i]:",XBee_u16Loop); if(XBee_u8TxRq == 1) { /* a Tx job request is active */ PC.printf("\r\nTx... "); /* disable rx */ XBee_boRxAllowed = 0; for (int i=0; i<BUFFER_SIZE; i++) { while (true) { if (XBeeServer.writeable()) { XBee_u16TxResult= XBeeServer.putc(CommandTx[i]); PC.printf("%X ", XBee_u16TxResult); break; } } } /* tx done */ PC.printf("\r\nTx done. "); XBee_u8TxRq = 0; /* enable rx */ XBee_boRxAllowed = 1; } } #if 1 int main() { char TxJob[BUFFER_SIZE+1] = {0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, '\0'}; XBee_vInit(); while (true) { wait(0.2f); // wait a small period of time Indicator = !Indicator; // toggle a led XBee_vMain(); memcpy(CommandTx,TxJob,9); //XBee_u8TxRq = 1; for(int i=0;i<BUFFER_SIZE;i++) { TxJob[i]++; } } } #endif