UIPEthernet library for Arduino IDE, Eclipse with arduino plugin and MBED/SMeshStudio (AVR,STM32F,ESP8266,Intel ARC32,Nordic nRF51,Teensy boards,Realtek Ameba(RTL8195A,RTL8710)), ENC28j60 network chip. Compatible with Wiznet W5100 Ethernet library API. Compiled and tested on Nucleo-F302R8. Master repository is: https://github.com/UIPEthernet/UIPEthernet/
examples/UdpServer/UdpServer.ino
- Committer:
- cassyarduino
- Date:
- 2016-12-29
- Revision:
- 11:3fb19220d9ec
- Parent:
- 0:e3fb1267e3c3
- Child:
- 12:aef29fbc4a62
File content as of revision 11:3fb19220d9ec:
/* * UIPEthernet UdpServer example. * * UIPEthernet is a TCP/IP stack that can be used with a enc28j60 based * Ethernet-shield. * * UIPEthernet uses the fine uIP stack by Adam Dunkels <adam@sics.se> * * ----------------- * * This UdpServer example sets up a udp-server at 192.168.0.6 on port 5000. * send packet via upd to test * * Copyright (C) 2013 by Norbert Truchsess (norbert.truchsess@t-online.de) */ #if defined(__MBED__) #include <mbed.h> #include "mbed/millis.h" #define delay(x) wait_ms(x) #define PROGMEM #include "mbed/Print.h" #endif #include <UIPEthernet.h> #include "utility/logging.h" EthernetUDP udp; #if defined(ARDUINO) void setup() { #endif #if defined(__MBED__) int main() { #endif #if ACTLOGLEVEL>LOG_NONE LogObject.begin(9600); #endif uint8_t mac[6] = {0x00,0x01,0x02,0x03,0x04,0x05}; Ethernet.begin(mac,IPAddress(192,168,0,6)); int success = udp.begin(5000); #if ACTLOGLEVEL>=LOG_INFO LogObject.uart_send_str(F("initialize: ")); LogObject.uart_send_strln(success ? "success" : "failed"); #endif #if defined(ARDUINO) } void loop() { #endif #if defined(__MBED__) while(true) { #endif //check for new udp-packet: int size = udp.parsePacket(); if (size > 0) { do { char* msg = (char*)malloc(size+1); int len = udp.read(msg,size+1); msg[len]=0; #if ACTLOGLEVEL>=LOG_INFO LogObject.uart_send_str(F("received: '")); LogObject.uart_send_str(msg); #endif free(msg); } while ((size = udp.available())>0); //finish reading this packet: udp.flush(); #if ACTLOGLEVEL>=LOG_INFO LogObject.uart_send_strln(F("'")); #endif int success; do { #if ACTLOGLEVEL>=LOG_INFO LogObject.uart_send_str(F("remote ip: ")); LogObject.println(udp.remoteIP()); LogObject.uart_send_str(F("remote port: ")); LogObject.println(udp.remotePort()); #endif //send new packet back to ip/port of client. This also //configures the current connection to ignore packets from //other clients! success = udp.beginPacket(udp.remoteIP(),udp.remotePort()); #if ACTLOGLEVEL>=LOG_INFO LogObject.uart_send_str(F("beginPacket: ")); LogObject.uart_send_strln(success ? "success" : "failed"); #endif //beginPacket fails if remote ethaddr is unknown. In this case an //arp-request is send out first and beginPacket succeeds as soon //the arp-response is received. } while (!success); success = udp.println(F("hello world from arduino")); #if ACTLOGLEVEL>=LOG_INFO LogObject.uart_send_str(F("bytes written: ")); LogObject.uart_send_decln(success); #endif success = udp.endPacket(); #if ACTLOGLEVEL>=LOG_INFO LogObject.uart_send_str(F("endPacket: ")); LogObject.uart_send_strln(success ? "success" : "failed"); #endif udp.stop(); //restart with new connection to receive packets from other clients #if ACTLOGLEVEL>=LOG_INFO LogObject.uart_send_str(F("restart connection: ")); LogObject.uart_send_strln(udp.begin(5000) ? "success" : "failed"); #endif } } #if defined(__MBED__) } #endif