WiFi PRO 10: UDP listener
This example shows how to set up a UDP client and send/receive information. After this step, the socket is closed
Required Materials
1 x Waspmote 1 x Battery 1 x WiFi PRO Module
Notes
- The battery has to be connected. - This example can be executed in Waspmote v15
Code
/*
* ------ WIFI Example --------
*
* Explanation: This example shows how to set up a UDP client and
* send/receive information. After this step, the socket is closed
*
* Copyright (C) 2016 Libelium Comunicaciones Distribuidas S.L.
* http://www.libelium.com
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*
* Version: 3.0
* Design: David Gascon
* Implementation: Yuri Carmona
*/
// Put your libraries here (#include ...)
#include <WaspWIFI_PRO.h>
#include <WaspFrame.h>
// choose socket (SELECT USER'S SOCKET)
///////////////////////////////////////
uint8_t socket = SOCKET0;
///////////////////////////////////////
// choose UDP server settings
///////////////////////////////////////
char HOST[] = "192.168.5.152";
char REMOTE_PORT[] = "3000";
char LOCAL_PORT[] = "2000";
///////////////////////////////////////
uint8_t error;
uint8_t status;
unsigned long previous;
uint8_t socket_handle = 0;
void setup()
{
USB.println(F("Start program"));
USB.println(F("***************************************"));
USB.println(F("Once the module is set with one or more"));
USB.println(F("AP settings, it attempts to join the AP"));
USB.println(F("automatically once it is powered on"));
USB.println(F("Refer to example 'WIFI_PRO_01' to configure"));
USB.println(F("the WiFi module with proper settings"));
USB.println(F("***************************************"));
}
void loop()
{
// get actual time
previous = millis();
//////////////////////////////////////////////////
// 1. Switch ON
//////////////////////////////////////////////////
error = WIFI_PRO.ON(socket);
if (error == 0)
{
USB.println(F("1. WiFi switched ON"));
}
else
{
USB.println(F("1. WiFi did not initialize correctly"));
}
//////////////////////////////////////////////////
// 2. Check if connected
//////////////////////////////////////////////////
// check connectivity
status = WIFI_PRO.isConnected();
// Check if module is connected
if (status == true)
{
USB.print(F("2. WiFi is connected OK"));
USB.print(F(" Time(ms):"));
USB.println(millis()-previous);
error = WIFI_PRO.getIP();
if (error == 0)
{
USB.print(F("IP address: "));
USB.println( WIFI_PRO._ip );
}
else
{
USB.println(F("getIP error"));
}
}
else
{
USB.print(F("2. WiFi is connected ERROR"));
USB.print(F(" Time(ms):"));
USB.println(millis()-previous);
}
//////////////////////////////////////////////////
// 3. Set UDP socket
//////////////////////////////////////////////////
// check if module is connected
if( status == true )
{
// 3.1. Open FTP session
error = WIFI_PRO.setUDP( HOST, REMOTE_PORT, LOCAL_PORT);
// check response
if( error == 0 )
{
// get socket handle (from 0 to 9)
socket_handle = WIFI_PRO._socket_handle;
USB.print(F("3.1. Open UDP socket OK in handle: "));
USB.println(socket_handle, DEC);
}
else
{
USB.println(F("3.1. Error calling 'setUDPclient' function"));
WIFI_PRO.printErrorCode();
}
}
//////////////////////////////////////////////////
// 4. Send/Listen data
//////////////////////////////////////////////////
// While Socket is OK keep listening
while (WIFI_PRO.getSocketStatus(socket_handle) == 0)
{
////////////////////////////////////////////////
// 4.1. send data
////////////////////////////////////////////////
error = WIFI_PRO.send( socket_handle, "This is a message from Waspmote\n");
// check response
if (error == 0)
{
USB.println(F("4.1. Send data OK"));
}
else
{
USB.println(F("4.1. Error calling 'send' function"));
WIFI_PRO.printErrorCode();
}
////////////////////////////////////////////////
// 4.2. Wait for answer
////////////////////////////////////////////////
USB.print(F("4.2. Listen to UDP socket:"));
error = WIFI_PRO.receive(socket_handle, 20000);
// check answer
if (error == 0)
{
USB.println(F("\n========================================"));
USB.print(F("Data: "));
USB.println( WIFI_PRO._buffer, WIFI_PRO._length);
USB.print(F("Length: "));
USB.println( WIFI_PRO._length,DEC);
USB.println(F("========================================"));
}
else
{
USB.println(F("No data received"));
}
USB.println();
}
//////////////////////////////////////////////////
// 5. Switch OFF
//////////////////////////////////////////////////
USB.println(F("WiFi switched OFF\n\n"));
WIFI_PRO.OFF(socket);
USB.println(F("Wait 10 seconds...\n"));
delay(10000);
}
Output
H#
Start program
***************************************
Once the module is set with one or more
AP settings, it attempts to join the AP
automatically once it is powered on
Refer to example 'WIFI_PRO_01' to configure
the WiFi module with proper settings
***************************************
1. WiFi switched ON
2. WiFi is connected OK Time(ms):5152
IP address: 10.10.10.12
3.1. Open UDP socket OK in handle: 0
4.1. Send data OK
4.2. Listen to UDP socket:
========================================
Data: This is a message via UDP
Length: 25
========================================
4.1. Send data OK
4.2. Listen to UDP socket:
========================================
Data: This is a message via UDP
Length: 26
========================================
4.1. Send data OK
4.2. Listen to UDP socket:
Last updated