问题描述
我们正在考虑将 Azure Hub 的 sdk-c 移植到运行 yocto 的设备上,我们已经使用目标端工具链对其进行了编译,现在我们正在测试目标端的结果。 目的是通过 mbedtls 将它与 MQTT 一起使用,目前我们收到了 socketio (socketio_berkley.c) 和 tlsio_mbedtls.c 的错误
azure-c-shared-utility/adapters/socketio_berkeley.c Func:initiate_socket_connection Line:353 打开到端点的连接失败 azure-c-shared-utility/adapters/socketio_berkeley.c Func:socketio_open Line:829 lookup_address_and_connect_socket 失败 azure-umqtt-c/src/mqtt_client.c Func:onopenComplete Line:454 错误:打开端点连接失败
设备客户端已断开连接^M
azure-c-shared-utility/adapters/tlsio_mbedtls.c Func:tlsio_mbedtls_open Line:649 底层 IO 打开失败 azure-umqtt-c/src/mqtt_client.c Func:mqtt_client_connect Line:1093 错误:io_open 失败^M azure-iot-sdk-c/iothub_client/src/iothubtransport_mqtt_common.c Func:SendMqttConnectMsg Line:2530 无法连接到地址 MYHUBNAME.azure-devices.net
This is the code I am using:
/* legato Framework */
#include "legato.h"
#include "interfaces.h"
#include "le_basics.h"
#include "json.h"
// copyright (c) Microsoft. All rights reserved.
// Licensed under the MIT license. See LICENSE file in the project root for full license information.
// CAVEAT: This sample is to demonstrate azure IoT client concepts only and is not a guide design principles or style
// Checking of return codes and error values shall be omitted for brevity. Please practice sound engineering practices
// when writing production code.
#include <stdio.h>
#include <stdlib.h>
#include "iothub.h"
#include "iothub_device_client_ll.h"
#include "iothub_client_options.h"
#include "iothub_message.h"
#include "azure_c_shared_utility/threadapi.h" //need to find this
#include "azure_c_shared_utility/crt_abstractions.h" //need to find this
#include "azure_c_shared_utility/shared_util_options.h" //need to find this
#include "internal/iothub_internal_consts.h"
#ifdef SET_TRUSTED_CERT_IN_SAMPLES
#include "certs.h"
#endif // SET_TRUSTED_CERT_IN_SAMPLES
/* This sample uses the _LL APIs of iothub_client for example purposes.
Simply changing the using the convenience layer (functions not having _LL)
and removing calls to _DoWork will yield the same results. */
// The protocol you wish to use should be uncommented
//
#define SAMPLE_MQTT
//#define SAMPLE_MQTT_OVER_WEBSOCKETS
//#define SAMPLE_AMQP
//#define SAMPLE_AMQP_OVER_WEBSOCKETS
//#define SAMPLE_HTTP
#define USE_MbedTLS
#ifdef SAMPLE_MQTT
#include "iothubtransportmqtt.h"
#endif // SAMPLE_MQTT
/*
#ifdef SAMPLE_MQTT_OVER_WEBSOCKETS
#include "iothubtransportmqtt_websockets.h"
#endif // SAMPLE_MQTT_OVER_WEBSOCKETS
#ifdef SAMPLE_AMQP
#include "iothubtransportamqp.h"
#endif // SAMPLE_AMQP
#ifdef SAMPLE_AMQP_OVER_WEBSOCKETS
#include "iothubtransportamqp_websockets.h"
#endif // SAMPLE_AMQP_OVER_WEBSOCKETS
#ifdef SAMPLE_HTTP
#include "iothubtransporthttp.h"
#endif // SAMPLE_HTTP
*/
/* Paste in the your iothub connection string */
static const char* connectionString = "****MY-CONNECTION-STRING****";
#define MESSAGE_COUNT 5
static bool g_continueRunning = true;
static size_t g_message_count_send_confirmations = 0;
static void send_confirm_callback(IOTHUB_CLIENT_CONFIRMATION_RESULT result,void* userContextCallback)
{
(void)userContextCallback;
// When a message is sent this callback will get envoked
g_message_count_send_confirmations++;
(void)printf("Confirmation callback received for message %lu with result %s\r\n",(unsigned long)g_message_count_send_confirmations,MU_ENUM_TO_STRING(IOTHUB_CLIENT_CONFIRMATION_RESULT,result));
}
static void connection_status_callback(IOTHUB_CLIENT_CONNECTION_STATUS result,IOTHUB_CLIENT_CONNECTION_STATUS_REASON reason,void* user_context)
{
(void)reason;
(void)user_context;
// This sample DOES NOT take into consideration network outages.
if (result == IOTHUB_CLIENT_CONNECTION_AUTHENTICATED)
{
(void)printf("The device client is connected to iothub\r\n");
}
else
{
(void)printf("The device client has been disconnected\r\n");
}
}
main
{
IOTHUB_CLIENT_TRANSPORT_PROVIDER protocol = MQTT_Protocol;
IOTHUB_MESSAGE_HANDLE message_handle;
size_t messages_sent = 0;
const char* telemetry_msg = "test_message";
// Used to initialize IoTHub SDK subsystem
(void)IoTHub_Init();
IOTHUB_DEVICE_CLIENT_LL_HANDLE device_ll_handle;
(void)printf("Creating IoTHub Device handle\r\n");
// Create the iothub handle here
device_ll_handle = IoTHubDeviceClient_LL_CreateFromConnectionString(connectionString,protocol);
if (device_ll_handle == NULL)
{
(void)printf("Failure creating IotHub device. Hint: Check your connection string.\r\n");
}
else
{
// Set any option that are neccessary.
// For available options please see the iothub_sdk_options.md documentation
/*
#ifndef SAMPLE_HTTP
// Can not set this options in HTTP
bool traceOn = true;
IoTHubDeviceClient_LL_Setoption(device_ll_handle,OPTION_LOG_TRACE,&traceOn);
#endif
#ifdef SET_TRUSTED_CERT_IN_SAMPLES
// Setting the Trusted Certificate. This is only necessary on systems without
// built in certificate stores.
IoTHubDeviceClient_LL_Setoption(device_ll_handle,OPTION_TRUSTED_CERT,certificates);
#endif // SET_TRUSTED_CERT_IN_SAMPLES
*/
#if defined SAMPLE_MQTT || defined SAMPLE_MQTT_OVER_WEBSOCKETS
//Setting the auto URL Encoder (recommended for MQTT). Please use this option unless
//you are URL Encoding inputs yourself.
//ONLY valid for use with MQTT
bool urlEncodeOn = true;
(void)IoTHubDeviceClient_LL_Setoption(device_ll_handle,OPTION_AUTO_URL_ENCODE_DECODE,&urlEncodeOn);
#endif
// Setting connection status callback to get indication of connection to iothub
(void)IoTHubDeviceClient_LL_SetConnectionStatusCallback(device_ll_handle,connection_status_callback,NULL);
do
{
if (messages_sent < MESSAGE_COUNT)
{
// Construct the iothub message from a string or a byte array
message_handle = IoTHubMessage_CreateFromString(telemetry_msg);
//message_handle = IoTHubMessage_CreateFromByteArray((const unsigned char*)msgText,strlen(msgText)));
// Set Message property
(void)IoTHubMessage_SetMessageId(message_handle,"MSG_ID");
(void)IoTHubMessage_SetCorrelationId(message_handle,"CORE_ID");
(void)IoTHubMessage_SetContentTypeSystemProperty(message_handle,"application%2fjson");
(void)IoTHubMessage_SetContentEncodingSystemProperty(message_handle,"utf-8");
(void)IoTHubMessage_SetMessageCreationTimeUtcSystemProperty(message_handle,"2020-07-01T01:00:00.346Z");
// Add custom properties to message
(void)IoTHubMessage_SetProperty(message_handle,"property_key","property_value");
(void)printf("Sending message %d to IoTHub\r\n",(int)(messages_sent + 1));
IoTHubDeviceClient_LL_SendEventAsync(device_ll_handle,message_handle,send_confirm_callback,NULL);
// The message is copied to the sdk so the we can destroy it
IoTHubMessage_Destroy(message_handle);
messages_sent++;
}
else if (g_message_count_send_confirmations >= MESSAGE_COUNT)
{
// After all messages are all received stop running
g_continueRunning = false;
}
IoTHubDeviceClient_LL_DoWork(device_ll_handle);
ThreadAPI_Sleep(1);
} while (g_continueRunning);
// Clean up the iothub sdk handle
IoTHubDeviceClient_LL_Destroy(device_ll_handle);
}
// Free all the sdk subsystem
IoTHub_Deinit();
printf("Press any key to continue,this is a test.");
(void)getchar();
return;
}
我刚刚选择了 MQTT_Protocol,但连接字符串是否足以连接到后端,或者我还需要准备好证书?
解决方法
设备需要证书才能通过 TLS 握手。如果您涵盖了那个,Cert 是一种连接选项,但您可以使用根据您的连接字符串生成的 SAS 令牌进行连接。
对于 Yocto 特定问题,您是否尝试过 this getting started 示例?
如果在查看后仍然无法正常工作,请打开 GitHub issue 并添加日志以进行调查。