Example of AWS IoT connection and Web Dashboard thru STM32 Nucleo evaluation board and mbed OS.
Dependencies: X_NUCLEO_IKS01A1 mbed FP MQTTPacket DnsQuery ATParser
Introduction
The demo is aimed to STM32 Nucleo board with WiFi and sensors expansions. The board is a "thing" for the AWS IoT service. It updates IoT service shadow with sensors data every second and checks subscription messages.
Hardware Configuration
- NUCLEO-F401RE - Nucleo Development Board
- X-NUCLEO-IDW01M1 - Wi-Fi expansion board for STM32 Nucleo
- X-NUCLEO-IKS01A1 - Motion MEMS and environmental sensor expansion board for STM32 Nucleo
Software Configuration
- Import this Project to mbed online compiler
- Find the next part of code in main.cpp file ...
WiFi network credential
#include "mbed.h" // WiFi network credential #define SSID "" // Network must be visible otherwise it can't connect #define PASSW "" #error "Wifi SSID & password empty"
- ... And set it to your Network Name and Password. Do not forget to remove "#error" pragma line.
Information
Nucleo WiFi module is not the same as your smartphone or laptope - it is based on demo board. To avoid connection problems:
- Place Nucleo as close to WiFi hot spot as possible. Or...
- Turn on mobile hot spot in your laptop as close to the device as possible.
- Make sure that hot spot permits 2.4 GHz band communications
- Setup BackEnd and store certificates using this backend setup instruction
- Find AWS_IOT_MQTT_HOST define and change it to HTTPS point mentioned in your AWS IoT thing properties named "interact"
#define AWS_IOT_MQTT_HOST "xxxxxxxxxx.iot.us-east-1.amazonaws.com" //Use your own host.
- Find the certificate defines clientCRT and clientKey in main.cpp file and change it to ones provided by Amazon.
/********************************************************************************************** *********************************************************************************************** Device Identity Certificates: Modify for your AWS IoT Thing *********************************************************************************************** ***********************************************************************************************/ /**************************************** (somecode)-certificate.pem.crt - Amazon signed PEM sertificate. *****************************************/ //This Client cert is example. Use own instead. const uint8_t clientCRT[] = "\ -----BEGIN CERTIFICATE-----\n\ MIIDBjCCAe6gAwIBAgIUVph856omeIxW3UPioq+UrX1DbwowDQYJKoZIhvcNAQEL\ BQAwTTFLMEkGA1UECwxCQW1hem9uIFdlYiBTZXJ2aWNlcyBPPUFtYXpvbi5jb20g\ SW5jLiBMPVNlYXR0bGUgU1Q9V2FzaGluZ3RvbiBDPVVTMB4XDTE3MDUyNTExNTEy\ OVoXDTQ5MTIzMTIzNTk1OVowgZUxCzAJBgNVBAYTAkJZMQ4wDAYDVQQIDAVNaW5z\ azEOMAwGA1UEBwwFTWluc2sxFzAVBgNVBAoMDktsaWthLVRlY2ggTExDMRcwFQYD\ VQQLDA5LbGlrYS1UZWNoIExMQzEMMAoGA1UEAwwDUm5EMSYwJAYJKoZIhvcNAQkB\ FhdtdmF0YWxldUBrbGlrYS10ZWNoLmNvbTBZMBMGByqGSM49AgEGCCqGSM49AwEH\ A0IABCJgOQJmoTBJVPfli9Hm/JVixaxkY5rtlgrYO3hSl633A2hg0P/ue0wXDbF3\ aQ0X57IRFE4k4FEbr3UXjT/IczKjYDBeMB8GA1UdIwQYMBaAFK3YzTUPlYB2Li75\ i/z8rEogr1d6MB0GA1UdDgQWBBT18HXBaXFJuAR/0SwegnxJ+pyJ6TAMBgNVHRMB\ Af8EAjAAMA4GA1UdDwEB/wQEAwIHgDANBgkqhkiG9w0BAQsFAAOCAQEAb0Ux1aH5\ RLxjrfGqXN6rPVqh8QQRS+AyBfzmaQN8HaPZMkX5WxXLvcn0A3uWlwQxPPkcZ4zf\ 51GHtFFQWB4YZ8dx8mUQ0v/j7onHjCJgZ8iDgwOyKMGtnsDZWCakQw+a6cj+NrMZ\ tzhjwCzEEP6ePcbXwErI5OOzLuWns2L/JEr2wWNkokgRuS8ewr/SQ9OLWIWa2rFM\ ahPNTb3y/qBeWdjeJmhI+TOxdqIpsF8roWP25zwo/zkzCHCjXFBrL+0CA4MpxIl9\ x02i7aAhlJ6ys80lDxdeWeeQJXRKkGknP8mcmKn3iEqqJ5s1dQePj2b5d3ldatya\ wsxQBqqZXzIWEw==\ \n\ -----END CERTIFICATE-----\n"; /********************************************************************************************** *********************************************************************************************** Private Key: Modify for your AWS IoT Thing *********************************************************************************************** ***********************************************************************************************/ /********************************************************************8**************************************** nucleo.key.pem - client key generated according to readme. **************************************************************************************************************/ //This Client Key is example. Use own instead. const uint8_t clientKey[] ="\ -----BEGIN EC PARAMETERS-----\n\ BggqhkjOPQMBBw==\ -----END EC PARAMETERS-----\n\ -----BEGIN EC PRIVATE KEY-----\n\ MHcCAQEEIHPRfWSC8/k/BsqDWKuP15dXsI9fGwpkTIsLZe6mIrAAoAoGCCqGSM49\ AwEHoUQDQgAEImA5AmahMElU9+WL0eb8lWLFrGRjmu2WCtg7eFKXrfcDaGDQ/+57\ TBcNsXdpDRfnshEUTiTgURuvdReNP8hzMg==\ -----END EC PRIVATE KEY-----\n";
Build and Check
- Plugin your board to USB of your PC. USB Disk Drive and USB COM Port should appear in your system.
- Open any Serial Console, connect it to your USB Serial Port and setup speed equal to 115200.
- Compile this Project and save .bin file to USB Disk Drive
- After board reset you should see next log in serial console:
X-NUCLEO-IDW01M1 mbed Application connecting to AP LOG: int main() L#361 Connected to WiFI. LOG: int connect(MQTT::Client<MQTTWiFi, Countdown, 350, 5> *, MQTTWiFi *) L#186 ===================================== LOG: int connect(MQTT::Client<MQTTWiFi, Countdown, 350, 5> *, MQTTWiFi *) L#187 Connecting WiFi. LOG: int connect(MQTT::Client<MQTTWiFi, Countdown, 350, 5> *, MQTTWiFi *) L#188 Nucleo IP ADDRESS: X.X.X.X LOG: int connect(MQTT::Client<MQTTWiFi, Countdown, 350, 5> *, MQTTWiFi *) L#189 Nucleo MAC ADDRESS: 00:11:22:33:44:55 LOG: int connect(MQTT::Client<MQTTWiFi, Countdown, 350, 5> *, MQTTWiFi *) L#190 Server Hostname: xxxxxxxx.iot.us-east-1.amazonaws.com port: 8883 LOG: int connect(MQTT::Client<MQTTWiFi, Countdown, 350, 5> *, MQTTWiFi *) L#191 Client ID: Nucleo LOG: int connect(MQTT::Client<MQTTWiFi, Countdown, 350, 5> *, MQTTWiFi *) L#194 ===================================== LOG: int MQTTSocket::getNTPtime(int) L#58 Success receiving time from ntp server. Tick from 1 Jan 1970 is equal to 1505399292. --->TCP Connected --->MQTT Connected --->>>MQTT subscribed to: Nucleo/test Length - 245, Publishing {"state": {"reported": {"temperature": 23.690001, "humidity": 98.190002, "pressure": 982.869141, "accelerometer": [-0.009000, 0.030000, 0.971000], "gyroscope": [0.420000, -2.660000, 1.750000], "magnetometer": [-3.600000, -7.100000, 53.300000]}}} Length - 245, Publishing {"state": {"reported": {"temperature": 23.660000, "humidity": 98.010002, "pressure": 982.770264, "accelerometer": [-0.009000, 0.030000, 0.971000], "gyroscope": [0.770000, -2.310000, 1.470000], "magnetometer": [-3.100000, -8.300000, 54.200000]}}} Length - 245, Publishing {"state": {"reported": {"temperature": 23.670000, "humidity": 98.129997, "pressure": 982.724121, "accelerometer": [-0.008000, 0.029000, 0.971000], "gyroscope": [0.630000, -2.380000, 1.400000], "magnetometer": [-3.100000, -7.900000, 53.400000]}}} Length - 245, Publishing {"state": {"reported": {"temperature": 23.690001, "humidity": 98.019997, "pressure": 982.840088, "accelerometer": [-0.009000, 0.030000, 0.972000], "gyroscope": [0.700000, -2.450000, 1.540000], "magnetometer": [-3.700000, -7.900000, 53.400000]}}} Length - 245, Publishing {"state": {"reported": {"temperature": 23.709999, "humidity": 98.040001, "pressure": 982.828613, "accelerometer": [-0.009000, 0.030000, 0.971000], "gyroscope": [0.630000, -2.520000, 1.470000], "magnetometer": [-2.900000, -7.400000, 52.400000]}}} Length - 245, Publishing {"state": {"reported": {"temperature": 23.719999, "humidity": 97.860001, "pressure": 982.917236, "accelerometer": [-0.026000, 0.103000, 0.891000], "gyroscope": [1.050000, -2.310000, 1.260000], "magnetometer": [-3.300000, -7.100000, 53.500000]}}}
Information
Device connection state might be checked by Green Led on the board. Green light means that device is connected and transferring data to cloud.
- Configure and start your dashboard using instruction and corresponding sources from github
- Use Blue button to set up markers to charts.
- Use AWS IoT console MQTT Client to test device subscription to "Nucleo/test". Just publish any message to this topic and serial port output.
- PROFIT!
NetworkSocketAPI/SocketAddress.cpp@0:4cdaf9b1e7d0, 2017-09-27 (annotated)
- Committer:
- PavelSavyhin
- Date:
- Wed Sep 27 14:40:52 2017 +0300
- Revision:
- 0:4cdaf9b1e7d0
Initial commit
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
PavelSavyhin | 0:4cdaf9b1e7d0 | 1 | /* Socket |
PavelSavyhin | 0:4cdaf9b1e7d0 | 2 | * Copyright (c) 2015 ARM Limited |
PavelSavyhin | 0:4cdaf9b1e7d0 | 3 | * |
PavelSavyhin | 0:4cdaf9b1e7d0 | 4 | * Licensed under the Apache License, Version 2.0 (the "License"); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 5 | * you may not use this file except in compliance with the License. |
PavelSavyhin | 0:4cdaf9b1e7d0 | 6 | * You may obtain a copy of the License at |
PavelSavyhin | 0:4cdaf9b1e7d0 | 7 | * |
PavelSavyhin | 0:4cdaf9b1e7d0 | 8 | * http://www.apache.org/licenses/LICENSE-2.0 |
PavelSavyhin | 0:4cdaf9b1e7d0 | 9 | * |
PavelSavyhin | 0:4cdaf9b1e7d0 | 10 | * Unless required by applicable law or agreed to in writing, software |
PavelSavyhin | 0:4cdaf9b1e7d0 | 11 | * distributed under the License is distributed on an "AS IS" BASIS, |
PavelSavyhin | 0:4cdaf9b1e7d0 | 12 | * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
PavelSavyhin | 0:4cdaf9b1e7d0 | 13 | * See the License for the specific language governing permissions and |
PavelSavyhin | 0:4cdaf9b1e7d0 | 14 | * limitations under the License. |
PavelSavyhin | 0:4cdaf9b1e7d0 | 15 | */ |
PavelSavyhin | 0:4cdaf9b1e7d0 | 16 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 17 | #include "SocketAddress.h" |
PavelSavyhin | 0:4cdaf9b1e7d0 | 18 | #include "NetworkStack.h" |
PavelSavyhin | 0:4cdaf9b1e7d0 | 19 | #include <string.h> |
PavelSavyhin | 0:4cdaf9b1e7d0 | 20 | #include "mbed.h" |
PavelSavyhin | 0:4cdaf9b1e7d0 | 21 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 22 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 23 | static bool ipv4_is_valid(const char *addr) |
PavelSavyhin | 0:4cdaf9b1e7d0 | 24 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 25 | int i = 0; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 26 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 27 | // Check each digit for [0-9.] |
PavelSavyhin | 0:4cdaf9b1e7d0 | 28 | for (; addr[i]; i++) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 29 | if (!(addr[i] >= '0' && addr[i] <= '9') && addr[i] != '.') { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 30 | return false; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 31 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 32 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 33 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 34 | // Ending with '.' garuntees host |
PavelSavyhin | 0:4cdaf9b1e7d0 | 35 | if (i > 0 && addr[i-1] == '.') { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 36 | return false; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 37 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 38 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 39 | return true; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 40 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 41 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 42 | static bool ipv6_is_valid(const char *addr) |
PavelSavyhin | 0:4cdaf9b1e7d0 | 43 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 44 | // Check each digit for [0-9a-fA-F:] |
PavelSavyhin | 0:4cdaf9b1e7d0 | 45 | for (int i = 0; addr[i]; i++) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 46 | if (!(addr[i] >= '0' && addr[i] <= '9') && |
PavelSavyhin | 0:4cdaf9b1e7d0 | 47 | !(addr[i] >= 'a' && addr[i] <= 'f') && |
PavelSavyhin | 0:4cdaf9b1e7d0 | 48 | !(addr[i] >= 'A' && addr[i] <= 'F') && |
PavelSavyhin | 0:4cdaf9b1e7d0 | 49 | addr[i] != ':') { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 50 | return false; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 51 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 52 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 53 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 54 | return true; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 55 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 56 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 57 | static void ipv4_from_address(uint8_t *bytes, const char *addr) |
PavelSavyhin | 0:4cdaf9b1e7d0 | 58 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 59 | int count = 0; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 60 | int i = 0; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 61 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 62 | for (; count < NSAPI_IPv4_BYTES; count++) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 63 | int scanned = sscanf(&addr[i], "%hhu", &bytes[count]); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 64 | if (scanned < 1) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 65 | return; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 66 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 67 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 68 | for (; addr[i] != '.'; i++) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 69 | if (!addr[i]) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 70 | return; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 71 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 72 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 73 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 74 | i++; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 75 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 76 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 77 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 78 | static int ipv6_scan_chunk(uint16_t *shorts, const char *chunk) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 79 | int count = 0; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 80 | int i = 0; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 81 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 82 | for (; count < NSAPI_IPv6_BYTES/2; count++) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 83 | int scanned = sscanf(&chunk[i], "%hx", &shorts[count]); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 84 | if (scanned < 1) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 85 | return count; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 86 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 87 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 88 | for (; chunk[i] != ':'; i++) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 89 | if (!chunk[i]) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 90 | return count+1; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 91 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 92 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 93 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 94 | i++; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 95 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 96 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 97 | return count; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 98 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 99 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 100 | static void ipv6_from_address(uint8_t *bytes, const char *addr) |
PavelSavyhin | 0:4cdaf9b1e7d0 | 101 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 102 | // Start with zeroed address |
PavelSavyhin | 0:4cdaf9b1e7d0 | 103 | uint16_t shorts[NSAPI_IPv6_BYTES/2]; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 104 | memset(shorts, 0, sizeof shorts); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 105 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 106 | int suffix = 0; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 107 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 108 | // Find double colons and scan suffix |
PavelSavyhin | 0:4cdaf9b1e7d0 | 109 | for (int i = 0; addr[i]; i++) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 110 | if (addr[i] == ':' && addr[i+1] == ':') { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 111 | suffix = ipv6_scan_chunk(shorts, &addr[i+2]); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 112 | break; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 113 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 114 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 115 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 116 | // Move suffix to end |
PavelSavyhin | 0:4cdaf9b1e7d0 | 117 | memmove(&shorts[NSAPI_IPv6_BYTES/2-suffix], &shorts[0], |
PavelSavyhin | 0:4cdaf9b1e7d0 | 118 | suffix*sizeof(uint16_t)); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 119 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 120 | // Scan prefix |
PavelSavyhin | 0:4cdaf9b1e7d0 | 121 | ipv6_scan_chunk(shorts, &addr[0]); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 122 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 123 | // Flip bytes |
PavelSavyhin | 0:4cdaf9b1e7d0 | 124 | for (int i = 0; i < NSAPI_IPv6_BYTES/2; i++) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 125 | bytes[2*i+0] = (uint8_t)(shorts[i] >> 8); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 126 | bytes[2*i+1] = (uint8_t)(shorts[i] >> 0); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 127 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 128 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 129 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 130 | static void ipv4_to_address(char *addr, const uint8_t *bytes) |
PavelSavyhin | 0:4cdaf9b1e7d0 | 131 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 132 | sprintf(addr, "%d.%d.%d.%d", bytes[0], bytes[1], bytes[2], bytes[3]); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 133 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 134 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 135 | static void ipv6_to_address(char *addr, const uint8_t *bytes) |
PavelSavyhin | 0:4cdaf9b1e7d0 | 136 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 137 | for (int i = 0; i < NSAPI_IPv6_BYTES/2; i++) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 138 | sprintf(&addr[5*i], "%02x%02x", bytes[2*i], bytes[2*i+1]); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 139 | addr[5*i+4] = ':'; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 140 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 141 | addr[NSAPI_IPv6_SIZE-1] = '\0'; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 142 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 143 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 144 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 145 | SocketAddress::SocketAddress(NetworkStack *iface, const char *host, uint16_t port) |
PavelSavyhin | 0:4cdaf9b1e7d0 | 146 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 147 | memset(&_ip_address, 0, sizeof _ip_address); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 148 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 149 | // Check for valid IP addresses |
PavelSavyhin | 0:4cdaf9b1e7d0 | 150 | if (host && ipv4_is_valid(host)) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 151 | _ip_version = NSAPI_IPv4; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 152 | ipv4_from_address(_ip_bytes, host); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 153 | set_port(port); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 154 | } else if (host && ipv6_is_valid(host)) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 155 | _ip_version = NSAPI_IPv6; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 156 | ipv6_from_address(_ip_bytes, host); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 157 | set_port(port); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 158 | } else { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 159 | // DNS lookup |
PavelSavyhin | 0:4cdaf9b1e7d0 | 160 | int err = iface->gethostbyname(this, host); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 161 | if (!err) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 162 | set_port(port); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 163 | } else { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 164 | _ip_version = NSAPI_IPv4; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 165 | memset(_ip_bytes, 0, NSAPI_IPv4_BYTES); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 166 | set_port(0); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 167 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 168 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 169 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 170 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 171 | SocketAddress::SocketAddress(const char *addr, uint16_t port) |
PavelSavyhin | 0:4cdaf9b1e7d0 | 172 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 173 | memset(&_ip_address, 0, sizeof _ip_address); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 174 | set_ip_address(addr); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 175 | set_port(port); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 176 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 177 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 178 | SocketAddress::SocketAddress(const void *bytes, nsapi_version_t version, uint16_t port) |
PavelSavyhin | 0:4cdaf9b1e7d0 | 179 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 180 | memset(&_ip_address, 0, sizeof _ip_address); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 181 | set_ip_bytes(bytes, version); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 182 | set_port(port); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 183 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 184 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 185 | SocketAddress::SocketAddress(const SocketAddress &addr) |
PavelSavyhin | 0:4cdaf9b1e7d0 | 186 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 187 | memset(&_ip_address, 0, sizeof _ip_address); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 188 | set_ip_bytes(addr.get_ip_bytes(), addr.get_ip_version()); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 189 | set_port(addr.get_port()); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 190 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 191 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 192 | void SocketAddress::set_ip_address(const char *addr) |
PavelSavyhin | 0:4cdaf9b1e7d0 | 193 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 194 | _ip_address[0] = '\0'; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 195 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 196 | if (addr && ipv4_is_valid(addr)) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 197 | _ip_version = NSAPI_IPv4; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 198 | ipv4_from_address(_ip_bytes, addr); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 199 | } else if (addr && ipv6_is_valid(addr)) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 200 | _ip_version = NSAPI_IPv6; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 201 | ipv6_from_address(_ip_bytes, addr); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 202 | } else { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 203 | _ip_version = NSAPI_IPv4; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 204 | memset(_ip_bytes, 0, NSAPI_IPv4_BYTES); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 205 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 206 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 207 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 208 | void SocketAddress::set_ip_bytes(const void *bytes, nsapi_version_t version) |
PavelSavyhin | 0:4cdaf9b1e7d0 | 209 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 210 | _ip_address[0] = '\0'; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 211 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 212 | if (version == NSAPI_IPv4) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 213 | _ip_version = NSAPI_IPv4; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 214 | memcpy(_ip_bytes, bytes, NSAPI_IPv4_BYTES); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 215 | } else if (version == NSAPI_IPv6) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 216 | _ip_version = NSAPI_IPv6; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 217 | memcpy(_ip_bytes, bytes, NSAPI_IPv6_BYTES); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 218 | } else { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 219 | _ip_version = NSAPI_IPv4; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 220 | memset(_ip_bytes, 0, NSAPI_IPv4_BYTES); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 221 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 222 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 223 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 224 | void SocketAddress::set_port(uint16_t port) |
PavelSavyhin | 0:4cdaf9b1e7d0 | 225 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 226 | _port = port; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 227 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 228 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 229 | const char *SocketAddress::get_ip_address() const |
PavelSavyhin | 0:4cdaf9b1e7d0 | 230 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 231 | char *ip_address = (char *)_ip_address; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 232 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 233 | if (!ip_address[0]) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 234 | if (_ip_version == NSAPI_IPv4) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 235 | ipv4_to_address(ip_address, _ip_bytes); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 236 | } else if (_ip_version == NSAPI_IPv6) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 237 | ipv6_to_address(ip_address, _ip_bytes); |
PavelSavyhin | 0:4cdaf9b1e7d0 | 238 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 239 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 240 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 241 | return ip_address; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 242 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 243 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 244 | const void *SocketAddress::get_ip_bytes() const |
PavelSavyhin | 0:4cdaf9b1e7d0 | 245 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 246 | return _ip_bytes; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 247 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 248 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 249 | nsapi_version_t SocketAddress::get_ip_version() const |
PavelSavyhin | 0:4cdaf9b1e7d0 | 250 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 251 | return _ip_version; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 252 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 253 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 254 | uint16_t SocketAddress::get_port() const |
PavelSavyhin | 0:4cdaf9b1e7d0 | 255 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 256 | return _port; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 257 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 258 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 259 | SocketAddress::operator bool() const |
PavelSavyhin | 0:4cdaf9b1e7d0 | 260 | { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 261 | int count = 0; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 262 | if (_ip_version == NSAPI_IPv4) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 263 | count = NSAPI_IPv4_BYTES; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 264 | } else if (_ip_version == NSAPI_IPv6) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 265 | count = NSAPI_IPv6_BYTES; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 266 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 267 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 268 | for (int i = 0; i < count; i++) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 269 | if (_ip_bytes[i]) { |
PavelSavyhin | 0:4cdaf9b1e7d0 | 270 | return true; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 271 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 272 | } |
PavelSavyhin | 0:4cdaf9b1e7d0 | 273 | |
PavelSavyhin | 0:4cdaf9b1e7d0 | 274 | return false; |
PavelSavyhin | 0:4cdaf9b1e7d0 | 275 | } |