An example program using NucleoL476RG with X-Nucleo-IDW01M1 wifi shield to sends analog data to Ubidots IoT Provider
Dependencies: NetworkSocketAPI X_NUCLEO_IDW01M1v2 mbed
Fork of TLS_HelloWorld_IDW01M1 by
Complete tutorial at https://www.hackster.io/rreicher/nucleol476rg-to-ubidots-00d173
main.cpp@1:daf71fa3674c, 2016-08-19 (annotated)
- Committer:
- mridup
- Date:
- Fri Aug 19 09:08:10 2016 +0000
- Revision:
- 1:daf71fa3674c
- Parent:
- 0:dee849b0e6e6
- Child:
- 2:3a87dbea07a7
generic pin names(PA_9->D8) and FRDM pin mappings (4 wire basic).
Who changed what in which revision?
User | Revision | Line number | New contents of line |
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mridup | 0:dee849b0e6e6 | 1 | /* SpwfInterface NetworkSocketAPI Example Program |
mridup | 0:dee849b0e6e6 | 2 | * Copyright (c) 2015 ARM Limited |
mridup | 0:dee849b0e6e6 | 3 | * |
mridup | 0:dee849b0e6e6 | 4 | * Licensed under the Apache License, Version 2.0 (the "License"); |
mridup | 0:dee849b0e6e6 | 5 | * you may not use this file except in compliance with the License. |
mridup | 0:dee849b0e6e6 | 6 | * You may obtain a copy of the License at |
mridup | 0:dee849b0e6e6 | 7 | * |
mridup | 0:dee849b0e6e6 | 8 | * http://www.apache.org/licenses/LICENSE-2.0 |
mridup | 0:dee849b0e6e6 | 9 | * |
mridup | 0:dee849b0e6e6 | 10 | * Unless required by applicable law or agreed to in writing, software |
mridup | 0:dee849b0e6e6 | 11 | * distributed under the License is distributed on an "AS IS" BASIS, |
mridup | 0:dee849b0e6e6 | 12 | * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
mridup | 0:dee849b0e6e6 | 13 | * See the License for the specific language governing permissions and |
mridup | 0:dee849b0e6e6 | 14 | * limitations under the License. |
mridup | 0:dee849b0e6e6 | 15 | */ |
mridup | 0:dee849b0e6e6 | 16 | |
mridup | 0:dee849b0e6e6 | 17 | #include "mbed.h" |
mridup | 0:dee849b0e6e6 | 18 | #include "SpwfInterface.h" |
mridup | 0:dee849b0e6e6 | 19 | #include "TCPSocket.h" |
mridup | 0:dee849b0e6e6 | 20 | |
mridup | 0:dee849b0e6e6 | 21 | //------------------------------------ |
mridup | 0:dee849b0e6e6 | 22 | // Hyperterminal configuration |
mridup | 0:dee849b0e6e6 | 23 | // 9600 bauds, 8-bit data, no parity |
mridup | 0:dee849b0e6e6 | 24 | //------------------------------------ |
mridup | 0:dee849b0e6e6 | 25 | |
mridup | 1:daf71fa3674c | 26 | Serial pc(USBTX, USBRX); //SERIAL_TX, SERIAL_RX |
mridup | 0:dee849b0e6e6 | 27 | DigitalOut myled(LED1); |
mridup | 1:daf71fa3674c | 28 | |
mridup | 1:daf71fa3674c | 29 | /************************************* |
mridup | 1:daf71fa3674c | 30 | //FRDM-K64: D9->UART1_TX, D7->UART1_RX |
mridup | 1:daf71fa3674c | 31 | Pin connections: |
mridup | 1:daf71fa3674c | 32 | FRDM IDW01M1 |
mridup | 1:daf71fa3674c | 33 | ------ --------- |
mridup | 1:daf71fa3674c | 34 | +3v3 <--> +3v3 |
mridup | 1:daf71fa3674c | 35 | GND <--> GND |
mridup | 1:daf71fa3674c | 36 | D9 <--> D8 |
mridup | 1:daf71fa3674c | 37 | D7 <--> D2 |
mridup | 1:daf71fa3674c | 38 | |
mridup | 1:daf71fa3674c | 39 | SpwfSAInterface spwf(D9, D7, false); |
mridup | 1:daf71fa3674c | 40 | *************************************/ |
mridup | 1:daf71fa3674c | 41 | |
mridup | 1:daf71fa3674c | 42 | //NUCLEO: D8->UART1_TX (PA_9), D2->UART1_RX (PA_10) |
mridup | 1:daf71fa3674c | 43 | SpwfSAInterface spwf(D8, D2, false); |
mridup | 0:dee849b0e6e6 | 44 | |
mridup | 0:dee849b0e6e6 | 45 | int main() { |
mridup | 0:dee849b0e6e6 | 46 | int err; |
mridup | 0:dee849b0e6e6 | 47 | char * ssid = "STM"; |
mridup | 0:dee849b0e6e6 | 48 | char * seckey = "STMdemoPWD"; |
mridup | 0:dee849b0e6e6 | 49 | |
mridup | 0:dee849b0e6e6 | 50 | pc.printf("\r\nX-NUCLEO-IDW01M1 mbed Application\r\n"); |
mridup | 0:dee849b0e6e6 | 51 | pc.printf("\r\nconnecting to AP\r\n"); |
mridup | 0:dee849b0e6e6 | 52 | |
mridup | 0:dee849b0e6e6 | 53 | if(spwf.connect(ssid, seckey, NSAPI_SECURITY_WPA2)) { |
mridup | 0:dee849b0e6e6 | 54 | pc.printf("\r\nnow connected\r\n"); |
mridup | 0:dee849b0e6e6 | 55 | } else { |
mridup | 0:dee849b0e6e6 | 56 | pc.printf("\r\nerror connecting to AP.\r\n"); |
mridup | 0:dee849b0e6e6 | 57 | return -1; |
mridup | 0:dee849b0e6e6 | 58 | } |
mridup | 0:dee849b0e6e6 | 59 | |
mridup | 0:dee849b0e6e6 | 60 | const char *ip = spwf.get_ip_address(); |
mridup | 0:dee849b0e6e6 | 61 | const char *mac = spwf.get_mac_address(); |
mridup | 0:dee849b0e6e6 | 62 | |
mridup | 0:dee849b0e6e6 | 63 | pc.printf("\r\nIP Address is: %s\r\n", (ip) ? ip : "No IP"); |
mridup | 0:dee849b0e6e6 | 64 | pc.printf("\r\nMAC Address is: %s\r\n", (mac) ? mac : "No MAC"); |
mridup | 0:dee849b0e6e6 | 65 | |
mridup | 0:dee849b0e6e6 | 66 | SocketAddress addr(&spwf, "st.com"); |
mridup | 0:dee849b0e6e6 | 67 | pc.printf("\r\nst.com resolved to: %s\r\n", addr.get_ip_address()); |
mridup | 0:dee849b0e6e6 | 68 | |
mridup | 0:dee849b0e6e6 | 69 | pc.printf("\r\nconnecting to http://time-d.nist.gov\r\n"); |
mridup | 0:dee849b0e6e6 | 70 | |
mridup | 0:dee849b0e6e6 | 71 | TCPSocket socket(&spwf); |
mridup | 0:dee849b0e6e6 | 72 | //err = socket.connect("192.168.1.6", 32000); |
mridup | 0:dee849b0e6e6 | 73 | err = socket.connect("4.ifcfg.me", 23);//"4.ifcfg.me", 23;//"time-d.nist.gov", 37 |
mridup | 0:dee849b0e6e6 | 74 | if(err!=0) |
mridup | 0:dee849b0e6e6 | 75 | { |
mridup | 0:dee849b0e6e6 | 76 | pc.printf("\r\nCould not connect to Socket, err = %d!!\r\n", err); |
mridup | 0:dee849b0e6e6 | 77 | return -1; |
mridup | 0:dee849b0e6e6 | 78 | } else pc.printf("\r\nconnected to host server\r\n"); |
mridup | 0:dee849b0e6e6 | 79 | |
mridup | 0:dee849b0e6e6 | 80 | //char * str = "test"; |
mridup | 0:dee849b0e6e6 | 81 | //socket.send(str, strlen(str)); |
mridup | 0:dee849b0e6e6 | 82 | |
mridup | 0:dee849b0e6e6 | 83 | #if 1 |
mridup | 0:dee849b0e6e6 | 84 | char buffer[64]; |
mridup | 0:dee849b0e6e6 | 85 | int count = 0; |
mridup | 0:dee849b0e6e6 | 86 | pc.printf("\r\nReceiving Data\r\n"); |
mridup | 0:dee849b0e6e6 | 87 | count = socket.recv(buffer, sizeof buffer); |
mridup | 0:dee849b0e6e6 | 88 | |
mridup | 0:dee849b0e6e6 | 89 | if(count > 0) |
mridup | 0:dee849b0e6e6 | 90 | { |
mridup | 0:dee849b0e6e6 | 91 | printf("public IP address is: %s\r\n", &buffer[15]); |
mridup | 0:dee849b0e6e6 | 92 | //pc.printf("\r\nReceived: %ld bytes, 0x%02x 0x%02x 0x%02x 0x%02x\r\n", \ |
mridup | 0:dee849b0e6e6 | 93 | // count, buffer[0], buffer[1], buffer[2], buffer[3]); |
mridup | 0:dee849b0e6e6 | 94 | } |
mridup | 0:dee849b0e6e6 | 95 | else pc.printf("\r\nData not received\r\n"); |
mridup | 0:dee849b0e6e6 | 96 | |
mridup | 0:dee849b0e6e6 | 97 | //pc.printf("\r\nClosing Socket\r\n"); |
mridup | 0:dee849b0e6e6 | 98 | // socket.close(); |
mridup | 0:dee849b0e6e6 | 99 | |
mridup | 0:dee849b0e6e6 | 100 | //pc.printf("\r\ndisconnecting....\r\n"); |
mridup | 0:dee849b0e6e6 | 101 | //spwf.disconnect(); |
mridup | 0:dee849b0e6e6 | 102 | //pc.printf("\r\nTest complete.\r\n"); |
mridup | 0:dee849b0e6e6 | 103 | #endif |
mridup | 0:dee849b0e6e6 | 104 | |
mridup | 0:dee849b0e6e6 | 105 | while(1) { |
mridup | 0:dee849b0e6e6 | 106 | wait(1); |
mridup | 0:dee849b0e6e6 | 107 | myled = !myled; |
mridup | 0:dee849b0e6e6 | 108 | } |
mridup | 0:dee849b0e6e6 | 109 | } |