yh Tang
/
NuMaker-mbed-AWS-IoT-example
NuMaker connection with AWS IoT thru MQTT/HTTPS
main.cpp
- Committer:
- ccli8
- Date:
- 2018-01-04
- Revision:
- 1:5ffad9f24d63
- Child:
- 3:4c8cccd32e34
File content as of revision 1:5ffad9f24d63:
/* This example demonstrates connection with AWS IoT through MQTT/HTTPS protocol. * * AWS IoT: Thing Shadow MQTT Topics * http://docs.aws.amazon.com/iot/latest/developerguide/thing-shadow-mqtt.html * * AWS IoT: Publish to a topic through HTTPS/POST method: * http://docs.aws.amazon.com/iot/latest/developerguide/protocols.html * * AWS IoT: Thing Shadow RESTful API: * http://docs.aws.amazon.com/iot/latest/developerguide/thing-shadow-rest-api.html */ #define AWS_IOT_MQTT_TEST 1 #define AWS_IOT_HTTPS_TEST 0 #include "mbed.h" #include "easy-connect.h" /* TLSSocket = Mbed TLS over TCPSocket */ #include "TLSSocket.h" /* Measure memory footprint */ #include "mbed_stats.h" #if AWS_IOT_MQTT_TEST /* MQTT-specific header files */ #include "MQTTmbed.h" #include "MQTTClient.h" #endif // End of AWS_IOT_MQTT_TEST namespace { /* List of trusted root CA certificates * currently only GlobalSign, the CA for os.mbed.com * * To add more than one root, just concatenate them. */ const char SSL_CA_CERT_PEM[] = "-----BEGIN CERTIFICATE-----\n" "MIIE0zCCA7ugAwIBAgIQGNrRniZ96LtKIVjNzGs7SjANBgkqhkiG9w0BAQUFADCB\n" "yjELMAkGA1UEBhMCVVMxFzAVBgNVBAoTDlZlcmlTaWduLCBJbmMuMR8wHQYDVQQL\n" "ExZWZXJpU2lnbiBUcnVzdCBOZXR3b3JrMTowOAYDVQQLEzEoYykgMjAwNiBWZXJp\n" "U2lnbiwgSW5jLiAtIEZvciBhdXRob3JpemVkIHVzZSBvbmx5MUUwQwYDVQQDEzxW\n" "ZXJpU2lnbiBDbGFzcyAzIFB1YmxpYyBQcmltYXJ5IENlcnRpZmljYXRpb24gQXV0\n" "aG9yaXR5IC0gRzUwHhcNMDYxMTA4MDAwMDAwWhcNMzYwNzE2MjM1OTU5WjCByjEL\n" "MAkGA1UEBhMCVVMxFzAVBgNVBAoTDlZlcmlTaWduLCBJbmMuMR8wHQYDVQQLExZW\n" "ZXJpU2lnbiBUcnVzdCBOZXR3b3JrMTowOAYDVQQLEzEoYykgMjAwNiBWZXJpU2ln\n" "biwgSW5jLiAtIEZvciBhdXRob3JpemVkIHVzZSBvbmx5MUUwQwYDVQQDEzxWZXJp\n" "U2lnbiBDbGFzcyAzIFB1YmxpYyBQcmltYXJ5IENlcnRpZmljYXRpb24gQXV0aG9y\n" "aXR5IC0gRzUwggEiMA0GCSqGSIb3DQEBAQUAA4IBDwAwggEKAoIBAQCvJAgIKXo1\n" "nmAMqudLO07cfLw8RRy7K+D+KQL5VwijZIUVJ/XxrcgxiV0i6CqqpkKzj/i5Vbex\n" "t0uz/o9+B1fs70PbZmIVYc9gDaTY3vjgw2IIPVQT60nKWVSFJuUrjxuf6/WhkcIz\n" "SdhDY2pSS9KP6HBRTdGJaXvHcPaz3BJ023tdS1bTlr8Vd6Gw9KIl8q8ckmcY5fQG\n" "BO+QueQA5N06tRn/Arr0PO7gi+s3i+z016zy9vA9r911kTMZHRxAy3QkGSGT2RT+\n" "rCpSx4/VBEnkjWNHiDxpg8v+R70rfk/Fla4OndTRQ8Bnc+MUCH7lP59zuDMKz10/\n" "NIeWiu5T6CUVAgMBAAGjgbIwga8wDwYDVR0TAQH/BAUwAwEB/zAOBgNVHQ8BAf8E\n" "BAMCAQYwbQYIKwYBBQUHAQwEYTBfoV2gWzBZMFcwVRYJaW1hZ2UvZ2lmMCEwHzAH\n" "BgUrDgMCGgQUj+XTGoasjY5rw8+AatRIGCx7GS4wJRYjaHR0cDovL2xvZ28udmVy\n" "aXNpZ24uY29tL3ZzbG9nby5naWYwHQYDVR0OBBYEFH/TZafC3ey78DAJ80M5+gKv\n" "MzEzMA0GCSqGSIb3DQEBBQUAA4IBAQCTJEowX2LP2BqYLz3q3JktvXf2pXkiOOzE\n" "p6B4Eq1iDkVwZMXnl2YtmAl+X6/WzChl8gGqCBpH3vn5fJJaCGkgDdk+bW48DW7Y\n" "5gaRQBi5+MHt39tBquCWIMnNZBU4gcmU7qKEKQsTb47bDN0lAtukixlE0kF6BWlK\n" "WE9gyn6CagsCqiUXObXbf+eEZSqVir2G3l6BFoMtEMze/aiCKm0oHw0LxOXnGiYZ\n" "4fQRbxC1lfznQgUy286dUV4otp6F01vvpX1FQHKOtw5rDgb7MzVIcbidJ4vEZV8N\n" "hnacRHr2lVz2XTIIM6RUthg/aFzyQkqFOFSDX9HoLPKsEdao7WNq\n" "-----END CERTIFICATE-----\n"; /* User certificate which has been activated and attached with specific thing and policy */ const char SSL_USER_CERT_PEM[] = "-----BEGIN CERTIFICATE-----\n" "MIIDWjCCAkKgAwIBAgIVALN/H7tr8cgpl2zwg0JjEE106XilMA0GCSqGSIb3DQEB\n" "CwUAME0xSzBJBgNVBAsMQkFtYXpvbiBXZWIgU2VydmljZXMgTz1BbWF6b24uY29t\n" "IEluYy4gTD1TZWF0dGxlIFNUPVdhc2hpbmd0b24gQz1VUzAeFw0xNzEyMTQwOTE3\n" "MjdaFw00OTEyMzEyMzU5NTlaMB4xHDAaBgNVBAMME0FXUyBJb1QgQ2VydGlmaWNh\n" "dGUwggEiMA0GCSqGSIb3DQEBAQUAA4IBDwAwggEKAoIBAQDM/Ebg1vx305GeuQk8\n" "UeYr+5IGBEoF6QwY9wjjliQMZKoIQk8eLYZxyjq/i0WRoXy+4l2IOZC0621bahHS\n" "2iPC07Uxj1BXBW+f+V0pBnUnnGK0tT3uGOFVOoPUBoiYU9mB/Anv4wXRdqrUNAMW\n" "Mq/lAzOvgfyFXnTu0AtvWwISNiAk3ly2E+3PC/Ma9RyMOAjsRUbQo66f2ERmd8yZ\n" "PgCXlb/x2kCnjnkau6MS0tg83Ro+QvyQGqBRf3fbYIS8Hz6mIKGffguuelEEoMqP\n" "H0beG0GO/T73uUAscbrOWzoVlNmFVt6Ly53s1tm9j/Spldl4EKmMD3vNetkInYDo\n" "O55zAgMBAAGjYDBeMB8GA1UdIwQYMBaAFE17U+bgCNXEKf4sP134dtHLiNtcMB0G\n" "A1UdDgQWBBSP7arfS0NaGmkNFBTg7SakJy0qEDAMBgNVHRMBAf8EAjAAMA4GA1Ud\n" "DwEB/wQEAwIHgDANBgkqhkiG9w0BAQsFAAOCAQEAW5RDTsZjhlkThMOrrP2XH1Cr\n" "9rcoXGqo+jOq5a/yX/LVIM2W/9bIIaOEDScP2haJWceq0C1O6t2JGL0UtNGFyjYS\n" "0Z3bCv77MNLhWc8GeIRHWAd65dlEspKO8P7UHNppHhh4/oKYpP2Nu/pvguofgIw6\n" "XbKk9PYz4n/ebdhWi6nTBi6Yc3d9aczMh227HcUz7RFoBEhKhOi7IDWzS9X+sqfD\n" "fg5NV+A4w6GMTAmLVU8ryodohSTaz34+bElnCdrAnMeSpR8BElTmojSdrA5eY5qZ\n" "ib7kkPRPyM3QuqTiMPMyxdVDxkoNtRrJ8zw+l443oKvVsUvDZJbHURUt2d4htA==\n" "-----END CERTIFICATE-----\n"; /* User private key paired with above */ const char SSL_USER_PRIV_KEY_PEM[] = "-----BEGIN RSA PRIVATE KEY-----\n" "MIIEowIBAAKCAQEAzPxG4Nb8d9ORnrkJPFHmK/uSBgRKBekMGPcI45YkDGSqCEJP\n" "Hi2Gcco6v4tFkaF8vuJdiDmQtOttW2oR0tojwtO1MY9QVwVvn/ldKQZ1J5xitLU9\n" "7hjhVTqD1AaImFPZgfwJ7+MF0Xaq1DQDFjKv5QMzr4H8hV507tALb1sCEjYgJN5c\n" "thPtzwvzGvUcjDgI7EVG0KOun9hEZnfMmT4Al5W/8dpAp455GrujEtLYPN0aPkL8\n" "kBqgUX9322CEvB8+piChn34LrnpRBKDKjx9G3htBjv0+97lALHG6zls6FZTZhVbe\n" "i8ud7NbZvY/0qZXZeBCpjA97zXrZCJ2A6DuecwIDAQABAoIBAEbY7rppM6tKoWrl\n" "cy6487/B3E9eDiOKz5aVUyoty1nJNQdTu7qna29KwRFQ1oOl99KVtFQP6VbOg+Zz\n" "e6OPp4p/14FAkjjxdQoqiqtSQw2kvGzOs4/mY4MsjUGr3GwhluyZKuoRYgJqbFKZ\n" "g3OZozeY6rU/TQLfibS8jSc4ojeehQx3cesJmnYA16iFjN8K/D2Tw+aJiKx+0D8k\n" "nbpy19/2MzBW+UhunMpCtfDNx/HLQAYtzxbxczw7yUiQnmyf+0t0/+xm0m04eic1\n" "GRHHInZSKzMfGtzyJXliFP5o92dspCm5vsiyXMcPzqcX192IZSixbG8etrJk8jXy\n" "bTi85VkCgYEA6hOkrSZjbZvsgtjJCIbjMmn9rpBrG0Bv+V1gJ/dH3hZjo2qUnVB0\n" "8PfBZ+oOoNjEWJlS38zf4pwHSBR6WzvH/o35EHvXNCcdKA82jmv0lbbdH2a4y19n\n" "lnlyEocsFmPtyuSp+TwIxKI1d+mk9q9D6FgWyLHSddn/qY56txOx7M8CgYEA4C8f\n" "6bz4a64KBnIZ7yWwwNkZ3Jn8wI62NiZpPpY5PfKtdYCdBHyuCWApE0e8pZy6fTTN\n" "VVH9RJEq3UHxvEPzNOOhlAoRKT3BakmQ+Yw9Dg+xk6XiiCQuJcEnWG+IUFIjsxEK\n" "SgSfzrVHtF3udlbP58b3gOSZvxBt8a3qBFPARR0CgYEA08hIAz0rUn1zxIMdiHB6\n" "WR+anXke3v4zEVwRZreNt3tsVOtWYOrtkyOmQj17VL4rD7pRSBmWKvJeiDG27pqs\n" "/Tw4r1hMwmvtLlRtWPiFx3s2n3WSFrdQAs4IjojsM6nf+OVggBZ4HGhilga38VVr\n" "zGj+3EA/Gc/OR/uYPdI89fMCgYAHOz3qSkAxKQIFxzRy9GJJNjeRWB5BD9ls0bxf\n" "WnUqPGPAAJAQDv2GK+XnS08YgH+7fjKJaAWlapFZZcEoc4Cq2hTiM5juHaHZjdnx\n" "Usa9Z2AxBQ7TmWcrrJlaTu60uJGSOyB71r5Y6pwPg2AnzRETxuVA8R7MfPku7I85\n" "6IGxOQKBgHyvFe38EHJndwgTZYK0fWWghRb6XmdH4MxZip2W6yO2Kzav6JuWamV6\n" "0x80T4RWTpWFXVb288EkSEambrKX8Y0ihn7bFK/cAxD4j7oAGJCgW85mbMAZsj4b\n" "OAvPvajSMJKyKrgIX/wMfTQlTqAvcsEA2FbrgX67BEBw9HUP2Mm6\n" "-----END RSA PRIVATE KEY-----\n"; #if AWS_IOT_MQTT_TEST #define AWS_IOT_MQTT_SERVER_NAME "a1fbcwaqfqeozo.iot.us-east-1.amazonaws.com" #define AWS_IOT_MQTT_SERVER_PORT 8883 #define AWS_IOT_MQTT_THINGNAME "Nuvoton-Mbed-D001" #define AWS_IOT_MQTT_CLIENTNAME "Nuvoton Client" /* User self-test topic */ const char USER_MQTT_TOPIC[] = "Nuvoton/Mbed/D001"; const char *USER_MQTT_TOPIC_FILTERS[] = { "Nuvoton/Mbed/+" }; const char USER_MQTT_TOPIC_PUBLISH_MESSAGE[] = "{ \"message\": \"Hello from Nuvoton Mbed device\" }"; /* Update thing shadow */ const char UPDATETHINGSHADOW_MQTT_TOPIC[] = "$aws/things/" AWS_IOT_MQTT_THINGNAME "/shadow/update"; const char *UPDATETHINGSHADOW_MQTT_TOPIC_FILTERS[] = { "$aws/things/" AWS_IOT_MQTT_THINGNAME "/shadow/update/accepted", "$aws/things/" AWS_IOT_MQTT_THINGNAME "/shadow/update/rejected" }; const char UPDATETHINGSHADOW_MQTT_TOPIC_PUBLISH_MESSAGE[] = "{ \"state\": { \"reported\": { \"attribute1\": 3, \"attribute2\": \"1\" } } }"; /* Get thing shadow */ const char GETTHINGSHADOW_MQTT_TOPIC[] = "$aws/things/" AWS_IOT_MQTT_THINGNAME "/shadow/get"; const char *GETTHINGSHADOW_MQTT_TOPIC_FILTERS[] = { "$aws/things/" AWS_IOT_MQTT_THINGNAME "/shadow/get/accepted", "$aws/things/" AWS_IOT_MQTT_THINGNAME "/shadow/get/rejected" }; const char GETTHINGSHADOW_MQTT_TOPIC_PUBLISH_MESSAGE[] = ""; /* Delete thing shadow */ const char DELETETHINGSHADOW_MQTT_TOPIC[] = "$aws/things/" AWS_IOT_MQTT_THINGNAME "/shadow/delete"; const char *DELETETHINGSHADOW_MQTT_TOPIC_FILTERS[] = { "$aws/things/" AWS_IOT_MQTT_THINGNAME "/shadow/delete/accepted", "$aws/things/" AWS_IOT_MQTT_THINGNAME "/shadow/delete/rejected" }; const char DELETETHINGSHADOW_MQTT_TOPIC_PUBLISH_MESSAGE[] = ""; /* MQTT user buffer size */ const int MQTT_USER_BUFFER_SIZE = 600; /* Configure MAX_MQTT_PACKET_SIZE to meet your application. * We may meet unknown MQTT error with MAX_MQTT_PACKET_SIZE too small, but * MQTT lib doesn't tell enough error message. Try to enlarge it. */ const int MAX_MQTT_PACKET_SIZE = 1000; #endif // End of AWS_IOT_MQTT_TEST #if AWS_IOT_HTTPS_TEST #define AWS_IOT_HTTPS_SERVER_NAME "a1fbcwaqfqeozo.iot.us-east-1.amazonaws.com" #define AWS_IOT_HTTPS_SERVER_PORT 8443 #define AWS_IOT_HTTPS_THINGNAME "Nuvoton-Mbed-D001" /* Publish to user topic through HTTPS/POST * HTTP POST https://"endpoint"/topics/"yourTopicHierarchy" */ const char USER_TOPIC_HTTPS_PATH[] = "/topics/Nuvoton/Mbed/D001?qos=1"; const char USER_TOPIC_HTTPS_REQUEST_METHOD[] = "POST"; const char USER_TOPIC_HTTPS_REQUEST_MESSAGE_BODY[] = "{ \"message\": \"Hello from Nuvoton Mbed device\" }"; /* Update thing shadow by publishing to UpdateThingShadow topic through HTTPS/POST * HTTP POST https://"endpoint"/topics/$aws/things/"thingName"/shadow/update */ const char UPDATETHINGSHADOW_TOPIC_HTTPS_PATH[] = "/topics/$aws/things/" AWS_IOT_HTTPS_THINGNAME "/shadow/update?qos=1"; const char UPDATETHINGSHADOW_TOPIC_HTTPS_REQUEST_METHOD[] = "POST"; const char UPDATETHINGSHADOW_TOPIC_HTTPS_REQUEST_MESSAGE_BODY[] = "{ \"state\": { \"reported\": { \"attribute1\": 3, \"attribute2\": \"1\" } } }"; /* Get thing shadow by publishing to GetThingShadow topic through HTTPS/POST * HTTP POST https://"endpoint"/topics/$aws/things/"thingName"/shadow/get */ const char GETTHINGSHADOW_TOPIC_HTTPS_PATH[] = "/topics/$aws/things/" AWS_IOT_HTTPS_THINGNAME "/shadow/get?qos=1"; const char GETTHINGSHADOW_TOPIC_HTTPS_REQUEST_METHOD[] = "POST"; const char GETTHINGSHADOW_TOPIC_HTTPS_REQUEST_MESSAGE_BODY[] = ""; /* Delete thing shadow by publishing to DeleteThingShadow topic through HTTPS/POST * HTTP POST https://"endpoint"/topics/$aws/things/"thingName"/shadow/delete */ const char DELETETHINGSHADOW_TOPIC_HTTPS_PATH[] = "/topics/$aws/things/" AWS_IOT_HTTPS_THINGNAME "/shadow/delete?qos=1"; const char DELETETHINGSHADOW_TOPIC_HTTPS_REQUEST_METHOD[] = "POST"; const char DELETETHINGSHADOW_TOPIC_HTTPS_REQUEST_MESSAGE_BODY[] = ""; /* Update thing shadow RESTfully through HTTPS/POST * HTTP POST https://endpoint/things/thingName/shadow */ const char UPDATETHINGSHADOW_THING_HTTPS_PATH[] = "/things/" AWS_IOT_HTTPS_THINGNAME "/shadow"; const char UPDATETHINGSHADOW_THING_HTTPS_REQUEST_METHOD[] = "POST"; const char UPDATETHINGSHADOW_THING_HTTPS_REQUEST_MESSAGE_BODY[] = "{ \"state\": { \"desired\": { \"attribute1\": 1, \"attribute2\": \"2\" }, \"reported\": { \"attribute1\": 2, \"attribute2\": \"1\" } } }"; /* Get thing shadow RESTfully through HTTPS/GET * HTTP GET https://"endpoint"/things/"thingName"/shadow */ const char GETTHINGSHADOW_THING_HTTPS_PATH[] = "/things/" AWS_IOT_HTTPS_THINGNAME "/shadow"; const char GETTHINGSHADOW_THING_HTTPS_REQUEST_METHOD[] = "GET"; const char GETTHINGSHADOW_THING_HTTPS_REQUEST_MESSAGE_BODY[] = ""; /* Delete thing shadow RESTfully through HTTPS/DELETE * HTTP DELETE https://endpoint/things/thingName/shadow */ const char DELETETHINGSHADOW_THING_HTTPS_PATH[] = "/things/" AWS_IOT_HTTPS_THINGNAME "/shadow"; const char DELETETHINGSHADOW_THING_HTTPS_REQUEST_METHOD[] = "DELETE"; const char DELETETHINGSHADOW_THING_HTTPS_REQUEST_MESSAGE_BODY[] = ""; /* HTTPS user buffer size */ const int HTTPS_USER_BUFFER_SIZE = 600; const char *HTTPS_OK_STR = "200 OK"; #endif // End of AWS_IOT_HTTPS_TEST } #if AWS_IOT_MQTT_TEST /** * /brief AWS_IoT_MQTT_Test implements the logic with AWS IoT User/Thing Shadow topics through MQTT. */ class AWS_IoT_MQTT_Test { public: /** * @brief AWS_IoT_MQTT_Test Constructor * * @param[in] domain Domain name of the MQTT server * @param[in] port Port number of the MQTT server * @param[in] net_iface Network interface */ AWS_IoT_MQTT_Test(const char * domain, const uint16_t port, NetworkInterface *net_iface) : _domain(domain), _port(port) { _tlssocket = new TLSSocket(net_iface, SSL_CA_CERT_PEM, SSL_USER_CERT_PEM, SSL_USER_PRIV_KEY_PEM); /* Blocking mode */ _tlssocket->set_blocking(true); /* Print Mbed TLS handshake log */ _tlssocket->set_debug(true); _mqtt_client = new MQTT::Client<TLSSocket, Countdown, MAX_MQTT_PACKET_SIZE>(*_tlssocket); } /** * @brief AWS_IoT_MQTT_Test Destructor */ ~AWS_IoT_MQTT_Test() { delete _mqtt_client; _mqtt_client = NULL; _tlssocket->close(); delete _tlssocket; _tlssocket = NULL; } /** * @brief Start AWS IoT test through MQTT */ void start_test() { int tls_rc; int mqtt_rc; do { /* Connect to the server */ /* Initialize TLS-related stuff */ printf("Connecting with %s:%d\n", _domain, _port); tls_rc = _tlssocket->connect(_domain, _port); if (tls_rc != NSAPI_ERROR_OK) { printf("Connects with %s:%d failed\n", _domain, _port); break; } printf("Connects with %s:%d OK\n", _domain, _port); /* See the link below for AWS IoT support for MQTT: * http://docs.aws.amazon.com/iot/latest/developerguide/protocols.html */ /* MQTT connect */ /* The message broker does not support persistent sessions (connections made with * the cleanSession flag set to false. */ MQTTPacket_connectData conn_data = MQTTPacket_connectData_initializer; /* AWS IoT message broker implementation is based on MQTT version 3.1.1 * 3 = 3.1 * 4 = 3.1.1 */ conn_data.MQTTVersion = 4; /* Version number of this structure. Must be 0 */ conn_data.struct_version = 0; /* The message broker uses the client ID to identify each client. The client ID is passed * in from the client to the message broker as part of the MQTT payload. Two clients with * the same client ID are not allowed to be connected concurrently to the message broker. * When a client connects to the message broker using a client ID that another client is using, * a CONNACK message will be sent to both clients and the currently connected client will be * disconnected. */ conn_data.clientID.cstring = AWS_IOT_MQTT_CLIENTNAME; /* The message broker does not support persistent sessions (connections made with * the cleanSession flag set to false. The AWS IoT message broker assumes all sessions * are clean sessions and messages are not stored across sessions. If an MQTT client * attempts to connect to the AWS IoT message broker with the cleanSession set to false, * the client will be disconnected. */ conn_data.cleansession = 1; //conn_data.username.cstring = "USERNAME"; //conn_data.password.cstring = "PASSWORD"; MQTT::connackData connack_data; /* _tlssocket must connect to the network endpoint before calling this. */ printf("MQTT connecting"); if ((mqtt_rc = _mqtt_client->connect(conn_data, connack_data)) != 0) { printf("\rMQTT connects failed: %d\n", mqtt_rc); break; } printf("\rMQTT connects OK\n\n"); /* Subscribe/publish user topic */ printf("Subscribing/publishing user topic\n"); if (! sub_pub_topic(USER_MQTT_TOPIC, USER_MQTT_TOPIC_FILTERS, sizeof (USER_MQTT_TOPIC_FILTERS) / sizeof (USER_MQTT_TOPIC_FILTERS[0]), USER_MQTT_TOPIC_PUBLISH_MESSAGE)) { break; } printf("Subscribes/publishes user topic OK\n\n"); /* Subscribe/publish UpdateThingShadow topic */ printf("Subscribing/publishing UpdateThingShadow topic\n"); if (! sub_pub_topic(UPDATETHINGSHADOW_MQTT_TOPIC, UPDATETHINGSHADOW_MQTT_TOPIC_FILTERS, sizeof (UPDATETHINGSHADOW_MQTT_TOPIC_FILTERS) / sizeof (UPDATETHINGSHADOW_MQTT_TOPIC_FILTERS[0]), UPDATETHINGSHADOW_MQTT_TOPIC_PUBLISH_MESSAGE)) { break; } printf("Subscribes/publishes UpdateThingShadow topic OK\n\n"); /* Subscribe/publish GetThingShadow topic */ printf("Subscribing/publishing GetThingShadow topic\n"); if (! sub_pub_topic(GETTHINGSHADOW_MQTT_TOPIC, GETTHINGSHADOW_MQTT_TOPIC_FILTERS, sizeof (GETTHINGSHADOW_MQTT_TOPIC_FILTERS) / sizeof (GETTHINGSHADOW_MQTT_TOPIC_FILTERS[0]), GETTHINGSHADOW_MQTT_TOPIC_PUBLISH_MESSAGE)) { break; } printf("Subscribes/publishes GetThingShadow topic OK\n\n"); /* Subscribe/publish DeleteThingShadow topic */ printf("Subscribing/publishing DeleteThingShadow topic\n"); if (! sub_pub_topic(DELETETHINGSHADOW_MQTT_TOPIC, DELETETHINGSHADOW_MQTT_TOPIC_FILTERS, sizeof (DELETETHINGSHADOW_MQTT_TOPIC_FILTERS) / sizeof (DELETETHINGSHADOW_MQTT_TOPIC_FILTERS[0]), DELETETHINGSHADOW_MQTT_TOPIC_PUBLISH_MESSAGE)) { break; } printf("Subscribes/publishes DeleteThingShadow topic OK\n\n"); } while (0); printf("MQTT disconnecting"); if ((mqtt_rc = _mqtt_client->disconnect()) != 0) { printf("\rMQTT disconnects failed %d\n", mqtt_rc); } printf("\rMQTT disconnects OK\n"); _tlssocket->close(); } protected: /** * @brief Subscribe/publish specific topic */ bool sub_pub_topic(const char *topic, const char **topic_filters, size_t topic_filters_size, const char *publish_message_body) { bool ret = false; int mqtt_rc; do { const char **topic_filter; const char **topic_filter_end = topic_filters + topic_filters_size; for (topic_filter = topic_filters; topic_filter != topic_filter_end; topic_filter ++) { /* AWS IoT does not support publishing and subscribing with QoS 2. * The AWS IoT message broker does not send a PUBACK or SUBACK when QoS 2 is requested. */ printf("MQTT subscribing to %s", *topic_filter); if ((mqtt_rc = _mqtt_client->subscribe(*topic_filter, MQTT::QOS1, message_arrived)) != 0) { printf("\rMQTT subscribes to %s failed: %d\n", *topic_filter, mqtt_rc); continue; } printf("\rMQTT subscribes to %s OK\n", *topic_filter); } MQTT::Message message; int _bpos; _bpos = snprintf(_buffer, sizeof (_buffer) - 1, publish_message_body); if (_bpos < 0 || ((size_t) _bpos) > (sizeof (_buffer) - 1)) { printf("snprintf failed: %d\n", _bpos); break; } _buffer[_bpos] = 0; /* AWS IoT does not support publishing and subscribing with QoS 2. * The AWS IoT message broker does not send a PUBACK or SUBACK when QoS 2 is requested. */ message.qos = MQTT::QOS1; message.retained = false; message.dup = false; message.payload = _buffer; message.payloadlen = strlen(_buffer); /* Print publish message */ printf("Message to publish:\n"); printf("%s\n", _buffer); printf("MQTT publishing message to %s", topic); if ((mqtt_rc = _mqtt_client->publish(topic, message)) != 0) { printf("\rMQTT publishes message to %s failed: %d\n", topic, mqtt_rc); break; } printf("\rMQTT publishes message to %s OK\n", topic); /* Receive message with subscribed topic */ while (! _message_arrive_count) { _mqtt_client->yield(100); } clear_message_arrive_count(); printf("\n"); /* Unsubscribe * We meet second unsubscribe failed. This is caused by MQTT lib bug. */ for (topic_filter = topic_filters; topic_filter != topic_filter_end; topic_filter ++) { printf("MQTT unsubscribing from %s", *topic_filter); if ((mqtt_rc = _mqtt_client->unsubscribe(*topic_filter)) != 0) { printf("\rMQTT unsubscribes from %s failed: %d\n", *topic_filter, mqtt_rc); continue; } printf("\rMQTT unsubscribes from %s OK\n", *topic_filter); } ret = true; } while (0); return ret; } protected: TLSSocket * _tlssocket; MQTT::Client<TLSSocket, Countdown, MAX_MQTT_PACKET_SIZE> * _mqtt_client; const char *_domain; /**< Domain name of the MQTT server */ const uint16_t _port; /**< Port number of the MQTT server */ char _buffer[MQTT_USER_BUFFER_SIZE]; /**< User buffer */ private: static volatile uint16_t _message_arrive_count; static void message_arrived(MQTT::MessageData& md) { MQTT::Message &message = md.message; printf("Message arrived: qos %d, retained %d, dup %d, packetid %d\r\n", message.qos, message.retained, message.dup, message.id); printf("Payload:\n"); printf("%.*s\n", message.payloadlen, (char*)message.payload); ++ _message_arrive_count; } static void clear_message_arrive_count() { _message_arrive_count = 0; } }; volatile uint16_t AWS_IoT_MQTT_Test::_message_arrive_count = 0; #endif // End of AWS_IOT_MQTT_TEST #if AWS_IOT_HTTPS_TEST /** * /brief AWS_IoT_HTTPS_Test implements the logic with AWS IoT User/Thing Shadow topics (publish-only) * and Thing Shadow RESTful API through HTTPS. */ class AWS_IoT_HTTPS_Test { public: /** * @brief AWS_IoT_HTTPS_Test Constructor * * @param[in] domain Domain name of the HTTPS server * @param[in] port Port number of the HTTPS server * @param[in] net_iface Network interface */ AWS_IoT_HTTPS_Test(const char * domain, const uint16_t port, NetworkInterface *net_iface) : _domain(domain), _port(port) { _tlssocket = new TLSSocket(net_iface, SSL_CA_CERT_PEM, SSL_USER_CERT_PEM, SSL_USER_PRIV_KEY_PEM); /* Non-blocking mode */ _tlssocket->set_blocking(false); /* Print Mbed TLS handshake log */ _tlssocket->set_debug(true); } /** * @brief AWS_IoT_HTTPS_Test Destructor */ ~AWS_IoT_HTTPS_Test() { _tlssocket->close(); delete _tlssocket; _tlssocket = NULL; } /** * @brief Start AWS IoT test through HTTPS * * @param[in] path The path of the file to fetch from the HTTPS server */ void start_test() { int tls_rc; do { /* Connect to the server */ /* Initialize TLS-related stuff */ printf("Connecting with %s:%d\n", _domain, _port); tls_rc = _tlssocket->connect(_domain, _port); if (tls_rc != NSAPI_ERROR_OK) { printf("Connects with %s:%d failed\n", _domain, _port); break; } printf("Connects with %s:%d OK\n\n", _domain, _port); /* Publish to user topic through HTTPS/POST */ printf("Publishing to user topic through HTTPS/POST\n"); if (! run_req_resp(USER_TOPIC_HTTPS_PATH, USER_TOPIC_HTTPS_REQUEST_METHOD, USER_TOPIC_HTTPS_REQUEST_MESSAGE_BODY)) { break; } printf("Publishes to user topic through HTTPS/POST OK\n\n"); /* Update thing shadow by publishing to UpdateThingShadow topic through HTTPS/POST */ printf("Updating thing shadow by publishing to Update Thing Shadow topic through HTTPS/POST\n"); if (! run_req_resp(UPDATETHINGSHADOW_TOPIC_HTTPS_PATH, UPDATETHINGSHADOW_TOPIC_HTTPS_REQUEST_METHOD, UPDATETHINGSHADOW_TOPIC_HTTPS_REQUEST_MESSAGE_BODY)) { break; } printf("Update thing shadow by publishing to Update Thing Shadow topic through HTTPS/POST OK\n\n"); /* Get thing shadow by publishing to GetThingShadow topic through HTTPS/POST */ printf("Getting thing shadow by publishing to GetThingShadow topic through HTTPS/POST\n"); if (! run_req_resp(GETTHINGSHADOW_TOPIC_HTTPS_PATH, GETTHINGSHADOW_TOPIC_HTTPS_REQUEST_METHOD, GETTHINGSHADOW_TOPIC_HTTPS_REQUEST_MESSAGE_BODY)) { break; } printf("Get thing shadow by publishing to GetThingShadow topic through HTTPS/POST OK\n\n"); /* Delete thing shadow by publishing to DeleteThingShadow topic through HTTPS/POST */ printf("Deleting thing shadow by publishing to DeleteThingShadow topic through HTTPS/POST\n"); if (! run_req_resp(DELETETHINGSHADOW_TOPIC_HTTPS_PATH, DELETETHINGSHADOW_TOPIC_HTTPS_REQUEST_METHOD, DELETETHINGSHADOW_TOPIC_HTTPS_REQUEST_MESSAGE_BODY)) { break; } printf("Delete thing shadow by publishing to DeleteThingShadow topic through HTTPS/POST OK\n\n"); /* Update thing shadow RESTfully through HTTPS/POST */ printf("Updating thing shadow RESTfully through HTTPS/POST\n"); if (! run_req_resp(UPDATETHINGSHADOW_THING_HTTPS_PATH, UPDATETHINGSHADOW_THING_HTTPS_REQUEST_METHOD, UPDATETHINGSHADOW_THING_HTTPS_REQUEST_MESSAGE_BODY)) { break; } printf("Update thing shadow RESTfully through HTTPS/POST OK\n\n"); /* Get thing shadow RESTfully through HTTPS/GET */ printf("Getting thing shadow RESTfully through HTTPS/GET\n"); if (! run_req_resp(GETTHINGSHADOW_THING_HTTPS_PATH, GETTHINGSHADOW_THING_HTTPS_REQUEST_METHOD, GETTHINGSHADOW_THING_HTTPS_REQUEST_MESSAGE_BODY)) { break; } printf("Get thing shadow RESTfully through HTTPS/GET OK\n\n"); /* Delete thing shadow RESTfully through HTTPS/DELETE */ printf("Deleting thing shadow RESTfully through HTTPS/DELETE\n"); if (! run_req_resp(DELETETHINGSHADOW_THING_HTTPS_PATH, DELETETHINGSHADOW_THING_HTTPS_REQUEST_METHOD, DELETETHINGSHADOW_THING_HTTPS_REQUEST_MESSAGE_BODY)) { break; } printf("Delete thing shadow RESTfully through HTTPS/DELETE OK\n\n"); } while (0); /* Close socket */ _tlssocket->close(); } protected: /** * @brief Run request/response through HTTPS */ bool run_req_resp(const char *https_path, const char *https_request_method, const char *https_request_message_body) { bool ret = false; do { int tls_rc; bool _got200 = false; int _bpos; /* Fill the request buffer */ _bpos = snprintf(_buffer, sizeof(_buffer) - 1, "%s %s HTTP/1.1\r\n" "Host: %s\r\n" "Content-Length: %d\r\n" "\r\n" "%s", https_request_method, https_path, AWS_IOT_HTTPS_SERVER_NAME, strlen(https_request_message_body), https_request_message_body); if (_bpos < 0 || ((size_t) _bpos) > (sizeof (_buffer) - 1)) { printf("snprintf failed: %d\n", _bpos); break; } _buffer[_bpos] = 0; /* Print request message */ printf("HTTPS: Request message:\n"); printf("%s\n", _buffer); int offset = 0; do { tls_rc = _tlssocket->send((const unsigned char *) _buffer + offset, _bpos - offset); if (tls_rc > 0) { offset += tls_rc; } } while (offset < _bpos && (tls_rc > 0 || tls_rc == MBEDTLS_ERR_SSL_WANT_READ || tls_rc == MBEDTLS_ERR_SSL_WANT_WRITE)); if (tls_rc < 0) { print_mbedtls_error("_tlssocket->send", tls_rc); break; } /* Read data out of the socket */ offset = 0; size_t content_length = 0; size_t offset_end = 0; char *line_beg = _buffer; char *line_end = NULL; do { tls_rc = _tlssocket->recv((unsigned char *) _buffer + offset, sizeof(_buffer) - offset - 1); if (tls_rc > 0) { offset += tls_rc; } /* Make it null-terminated */ _buffer[offset] = 0; /* Scan response message * * 1. A status line which includes the status code and reason message (e.g., HTTP/1.1 200 OK) * 2. Response header fields (e.g., Content-Type: text/html) * 3. An empty line (\r\n) * 4. An optional message body */ if (! offset_end) { line_end = strstr(line_beg, "\r\n"); if (line_end) { /* Scan status line */ if (! _got200) { _got200 = strstr(line_beg, HTTPS_OK_STR) != NULL; } /* Scan response header fields for Content-Length * * NOTE: Assume chunked transfer (Transfer-Encoding: chunked) is not used * NOTE: Assume response field name are in lower case */ if (content_length == 0) { sscanf(line_beg, "content-length:%d", &content_length); } /* An empty line indicates end of response header fields */ if (line_beg == line_end) { offset_end = line_end - _buffer + 2 + content_length; } /* Go to next line */ line_beg = line_end + 2; line_end = NULL; } } } while ((offset_end == 0 || offset < offset_end) && (tls_rc > 0 || tls_rc == MBEDTLS_ERR_SSL_WANT_READ || tls_rc == MBEDTLS_ERR_SSL_WANT_WRITE)); if (tls_rc < 0 && tls_rc != MBEDTLS_ERR_SSL_WANT_READ && tls_rc != MBEDTLS_ERR_SSL_WANT_WRITE) { print_mbedtls_error("_tlssocket->read", tls_rc); break; } _bpos = offset; _buffer[_bpos] = 0; /* Print status messages */ printf("HTTPS: Received %d chars from server\n", _bpos); printf("HTTPS: Received 200 OK status ... %s\n", _got200 ? "[OK]" : "[FAIL]"); printf("HTTPS: Received message:\n"); printf("%s\n", _buffer); ret = true; } while (0); return ret; } protected: TLSSocket * _tlssocket; const char *_domain; /**< Domain name of the HTTPS server */ const uint16_t _port; /**< Port number of the HTTPS server */ char _buffer[HTTPS_USER_BUFFER_SIZE]; /**< User buffer */ }; #endif // End of AWS_IOT_HTTPS_TEST int main() { /* The default 9600 bps is too slow to print full TLS debug info and could * cause the other party to time out. */ printf("\nStarting AWS IoT test\n"); #if defined(MBED_MAJOR_VERSION) printf("Using Mbed OS %d.%d.%d\n", MBED_MAJOR_VERSION, MBED_MINOR_VERSION, MBED_PATCH_VERSION); #else printf("Using Mbed OS from master.\n"); #endif /* Use the easy-connect lib to support multiple network bearers. */ /* See https://github.com/ARMmbed/easy-connect README.md for info. */ NetworkInterface* network = easy_connect(false); if (NULL == network) { printf("Connecting to the network failed. See serial output.\n"); return 1; } #if AWS_IOT_MQTT_TEST AWS_IoT_MQTT_Test *mqtt_test = new AWS_IoT_MQTT_Test(AWS_IOT_MQTT_SERVER_NAME, AWS_IOT_MQTT_SERVER_PORT, network); mqtt_test->start_test(); delete mqtt_test; #endif // End of AWS_IOT_MQTT_TEST #if AWS_IOT_HTTPS_TEST AWS_IoT_HTTPS_Test *https_test = new AWS_IoT_HTTPS_Test(AWS_IOT_HTTPS_SERVER_NAME, AWS_IOT_HTTPS_SERVER_PORT, network); https_test->start_test(); delete https_test; #endif // End of AWS_IOT_HTTPS_TEST /* Heap usage */ mbed_stats_heap_t heap_stats; mbed_stats_heap_get(&heap_stats); printf("\nCurrent heap size: %lu\n", heap_stats.current_size); printf("Max heap size: %lu\n", heap_stats.max_size); }