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Gestion du Trafic Adaptatif - Code des mbed récepteurs
Dependencies: XBeeLib mbed mbed-rtos
main.cpp
- Committer:
- leomerel
- Date:
- 2018-11-18
- Revision:
- 20:4e4d869ada85
- Parent:
- 19:9f6297cdd07a
- Child:
- 21:2ad11875542c
File content as of revision 20:4e4d869ada85:
//YOYOYO #include "mbed.h" #include "XBeeLib.h" #if defined(ENABLE_LOGGING) #include "DigiLoggerMbedSerial.h" using namespace DigiLog; #endif #define REMOTE_NODE_ADDR64_MSB ((uint32_t)0x0013A200) //#error "Replace next define with the LSB of the remote module's 64-bit address (SL parameter)" #define REMOTE_NODE_ADDR64_LSB ((uint32_t)0x40E779AF) #define REMOTE_NODE_ADDR64 UINT64(REMOTE_NODE_ADDR64_MSB, REMOTE_NODE_ADDR64_LSB) using namespace XBeeLib; //feux gauche //rouge DigitalOut feux_gauche_rouge(p30); //orange DigitalOut feux_gauche_orange(p28); //vert DigitalOut feux_gauche_vert(p26); //liste des message a envoyer rouge et vert seulement pour le coordinateur ////////////////////////// ///// char rouge[] = "r"; char vert[] = "v"; ///// uint8_t ok = 0x02; ////////////////////////// Serial *log_serial; /** Callback function, invoked at packet reception */ static void receive_cb(const RemoteXBeeZB& remote, bool broadcast, const uint8_t *const data, uint16_t len) { const uint64_t remote_addr64 = remote.get_addr64(); log_serial->printf("\r\nGot a %s RX packet [%08x:%08x|%04x], len %d\r\nData: ", broadcast ? "BROADCAST" : "UNICAST", UINT64_HI32(remote_addr64), UINT64_LO32(remote_addr64), remote.get_addr16(), len); for (int i = 0; i < len; i++) log_serial->printf("%02x ", data[i]); log_serial->printf("\r\n"); } static void send_explicit_data_to_remote_node(XBeeZB& xbee, const RemoteXBeeZB& RemoteDevice,int message){ //const uint8_t data_len = strlen(data); const uint8_t dstEP = 0xE8; const uint8_t srcEP = 0xE8; const uint16_t clusterID = 0x0011; const uint16_t profileID = 0xC105; char data1[]="r"; char data2[]="v"; char data3[]="e"; if (message ==0){ const TxStatus txStatus = xbee.send_data(RemoteDevice, dstEP, srcEP, clusterID, profileID, (const uint8_t *)data1, strlen(data1)); if (txStatus == TxStatusSuccess) log_serial->printf("send_explicit_data_to_remote_node OK\r\n"); else log_serial->printf("send_explicit_data_to_remote_node failed with %d\r\n", (int) txStatus); } else if (message ==1){ const TxStatus txStatus = xbee.send_data(RemoteDevice, dstEP, srcEP, clusterID, profileID, (const uint8_t *)data2, strlen(data2)); if (txStatus == TxStatusSuccess) log_serial->printf("send_explicit_data_to_remote_node OK\r\n"); else log_serial->printf("send_explicit_data_to_remote_node failed with %d\r\n", (int) txStatus); } else { const TxStatus txStatus = xbee.send_data(RemoteDevice, dstEP, srcEP, clusterID, profileID, (const uint8_t *)data3, strlen(data3)); if (txStatus == TxStatusSuccess) log_serial->printf("send_explicit_data_to_remote_node OK\r\n"); else log_serial->printf("send_explicit_data_to_remote_node failed with %d\r\n", (int) txStatus); } } int main() { log_serial = new Serial(DEBUG_TX, DEBUG_RX); log_serial->baud(9600); log_serial->printf("Sample application to demo how to receive unicast and broadcast data with the XBeeZB\r\n\r\n"); log_serial->printf(XB_LIB_BANNER); #if defined(ENABLE_LOGGING) new DigiLoggerMbedSerial(log_serial, LogLevelInfo); #endif XBeeZB xbee = XBeeZB(RADIO_TX, RADIO_RX, RADIO_RESET, NC, NC, 9600); /* Register callbacks */ xbee.register_receive_cb(&receive_cb); RadioStatus const radioStatus = xbee.init(); MBED_ASSERT(radioStatus == Success); /* Wait until the device has joined the network */ log_serial->printf("Waiting for device to join the network: "); while (!xbee.is_joined()) { wait_ms(1000); log_serial->printf("."); } log_serial->printf("OK\r\n"); int i =0; const RemoteXBeeZB remoteDevice = RemoteXBeeZB(REMOTE_NODE_ADDR64); while (true) { i++; uint32_t receive_value = xbee.process_rx_frames(); log_serial->printf("%d"); wait_ms(100); log_serial->printf("."); //partie gestion des feux a mettre sur le coordinateur ///////////////////////////////////////////// if(i==10){ send_explicit_data_to_remote_node(xbee, remoteDevice,1); feux_gauche_rouge = 0; feux_gauche_vert = 1; } if(i==20){ send_explicit_data_to_remote_node(xbee, remoteDevice,0); feux_gauche_rouge = 1; feux_gauche_vert = 0; i=0; } //////////////////////////////////////////// } // delete(log_serial); }