EC600U_esp32_iap_uart/LinkSDK/demos/diag_basic_demo.c

/*
 * 这个例程适用于`rtos`这类支持task的设备, 它演示了......
 *
 * 需要用户关注或修改的部分, 已经用 TODO 在注释中标明
 *
 */
#include <stdio.h>
#include <string.h>

#include "aiot_state_api.h"
#include "aiot_sysdep_api.h"
#include "aiot_mqtt_api.h"
#include "aiot_dm_api.h"
#include "aiot_diag_api.h"

#include "ali_demo.h"
#include "ql_api_osi.h"
#include "ql_api_nw.h"
#include "ali_demo.h"
#include "ql_log.h"
#include "ql_api_datacall.h"
#include "sockets.h"
#include "lwip/ip_addr.h"
#include "lwip/ip6_addr.h"

#include "lwip/netdb.h"
#include "lwip/netif.h"
#include "lwip/inet.h"
#include "lwip/tcp.h"

#define QL_SOCKET_LOG_LEVEL QL_LOG_LEVEL_INFO
#define uart_printf(msg, ...) QL_LOG(QL_SOCKET_LOG_LEVEL, "linkSDK ", msg, ##__VA_ARGS__)

#define diag_mqtt_profile_idx 1

/* 位于portfiles/aiot_port文件夹下的系统适配函数集合 */
extern aiot_sysdep_portfile_t g_aiot_sysdep_portfile;

/* 位于external/ali_ca_cert.c中的服务器证书 */
extern const char *ali_ca_cert;

ql_task_t ql_alisdk_diag_task_ref;
ql_task_t g_diag_mqtt_process_task_ref;
ql_task_t g_diag_mqtt_recv_task_ref;
static uint8_t g_diag_mqtt_process_task_ref_running = 0;
static uint8_t g_diag_mqtt_recv_task_ref_running = 0;

static int datacall_satrt(void)
{
    int ret = 0;
    int i = 0;
    ql_data_call_info_s info;
    char ip4_addr_str[16] = {0};
    uint8_t nSim = 0;

    ql_rtos_task_sleep_s(10);
    uart_printf("========== socket demo start ==========");
    uart_printf("wait for network register done");

    while ((ret = ql_network_register_wait(nSim, 120)) != 0 && i < 10)
    {
        i++;
        ql_rtos_task_sleep_s(1);
    }
    if (ret == 0)
    {
        i = 0;
        uart_printf("====network registered!!!!====");
    }
    else
    {
        uart_printf("====network register failure!!!!!====");
        goto exit;
    }

    ql_set_data_call_asyn_mode(nSim, diag_mqtt_profile_idx, 0);

    uart_printf("===start data call====");
    ret = ql_start_data_call(nSim, diag_mqtt_profile_idx, QL_PDP_TYPE_IP, "uninet", NULL, NULL, 0);
    uart_printf("===data call result:%d", ret);
    if (ret != 0)
    {
        uart_printf("====data call failure!!!!=====");
    }
    memset(&info, 0x00, sizeof(ql_data_call_info_s));

    ret = ql_get_data_call_info(nSim, diag_mqtt_profile_idx, &info);
    if (ret != 0)
    {
        uart_printf("ql_get_data_call_info ret: %d", ret);
        ql_stop_data_call(nSim, diag_mqtt_profile_idx);
        goto exit;
    }
    uart_printf("info->mqtt_profile_idx: %d", info.profile_idx);
    uart_printf("info->ip_version: %d", info.ip_version);

    uart_printf("info->v4.state: %d", info.v4.state);
    inet_ntop(AF_INET, &info.v4.addr.ip, ip4_addr_str, sizeof(ip4_addr_str));
    uart_printf("info.v4.addr.ip: %s\r\n", ip4_addr_str);

    inet_ntop(AF_INET, &info.v4.addr.pri_dns, ip4_addr_str, sizeof(ip4_addr_str));
    uart_printf("info.v4.addr.pri_dns: %s\r\n", ip4_addr_str);

    inet_ntop(AF_INET, &info.v4.addr.sec_dns, ip4_addr_str, sizeof(ip4_addr_str));
    uart_printf("info.v4.addr.sec_dns: %s\r\n", ip4_addr_str);

    return 0;
exit:
    return -1;
}


/* TODO: 如果要关闭日志, 就把这个函数实现为空, 如果要减少日志, 可根据code选择不打印
 *
 * 例如: [1577589489.033][LK-0317] diag_basic_demo&a13FN5TplKq
 *
 * 上面这条日志的code就是0317(十六进制), code值的定义见core/aiot_state_api.h
 *
 */

/* 日志回调函数, SDK的日志会从这里输出 */
static int32_t demo_state_logcb(int32_t code, char *message)
{
    uart_printf("%s", message);
    return 0;
}

/* MQTT事件回调函数, 当网络连接/重连/断开时被触发, 事件定义见core/aiot_mqtt_api.h */
static void demo_mqtt_event_handler(void *handle, const aiot_mqtt_event_t *event, void *userdata)
{
    switch (event->type) {
        /* SDK因为用户调用了aiot_mqtt_connect()接口, 与mqtt服务器建立连接已成功 */
        case AIOT_MQTTEVT_CONNECT: {
            uart_printf("AIOT_MQTTEVT_CONNECT\n");
        }
        break;

        /* SDK因为网络状况被动断连后, 自动发起重连已成功 */
        case AIOT_MQTTEVT_RECONNECT: {
            uart_printf("AIOT_MQTTEVT_RECONNECT\n");
        }
        break;

        /* SDK因为网络的状况而被动断开了连接, network是底层读写失败, heartbeat是没有按预期得到服务端心跳应答 */
        case AIOT_MQTTEVT_DISCONNECT: {
            char *cause = (event->data.disconnect == AIOT_MQTTDISCONNEVT_NETWORK_DISCONNECT) ? ("network disconnect") :
                          ("heartbeat disconnect");
            uart_printf("AIOT_MQTTEVT_DISCONNECT: %s\n", cause);
        }
        break;

        default: {

        }
    }
}

/* MQTT默认消息处理回调, 当SDK从服务器收到MQTT消息时, 且无对应用户回调处理时被调用 */
static void demo_mqtt_default_recv_handler(void *handle, const aiot_mqtt_recv_t *packet, void *userdata)
{
    switch (packet->type) {
        case AIOT_MQTTRECV_HEARTBEAT_RESPONSE: {
            uart_printf("heartbeat response\n");
        }
        break;

        case AIOT_MQTTRECV_SUB_ACK: {
            uart_printf("suback, res: -0x%04X, packet id: %d, max qos: %d\n",
                   -packet->data.sub_ack.res, packet->data.sub_ack.packet_id, packet->data.sub_ack.max_qos);
        }
        break;

        case AIOT_MQTTRECV_PUB: {
            uart_printf("pub, qos: %d, topic: %.*s\n", packet->data.pub.qos, packet->data.pub.topic_len, packet->data.pub.topic);
            uart_printf("pub, payload: %.*s\n", packet->data.pub.payload_len, packet->data.pub.payload);
        }
        break;

        case AIOT_MQTTRECV_PUB_ACK: {
            uart_printf("puback, packet id: %d\n", packet->data.pub_ack.packet_id);
        }
        break;

        default: {

        }
    }
}

/* 执行aiot_mqtt_process的线程, 包含心跳发送和QoS1消息重发 */
static void demo_mqtt_process_thread(void *args)
{
    int32_t res = STATE_SUCCESS;

    while (g_diag_mqtt_process_task_ref_running) {
        res = aiot_mqtt_process(args);
        if (res == STATE_USER_INPUT_EXEC_DISABLED) {
            break;
        }
        ql_rtos_task_sleep_s(1);
    }
    return;
}

/* 执行aiot_mqtt_recv的线程, 包含网络自动重连和从服务器收取MQTT消息 */
static void demo_mqtt_recv_thread(void *args)
{
    int32_t res = STATE_SUCCESS;

    while (g_diag_mqtt_recv_task_ref_running) {
        res = aiot_mqtt_recv(args);
        if (res < STATE_SUCCESS) {
            if (res == STATE_USER_INPUT_EXEC_DISABLED) {
                break;
            }
            ql_rtos_task_sleep_s(1);
        }
    }
    return;
}

static int32_t demo_mqtt_start(void *handle, char *product_key, char *device_name, char *device_secret)
{
    int32_t     res = STATE_SUCCESS;
    void       *mqtt_handle = handle;
    char       *url = "iot-as-mqtt.cn-shanghai.aliyuncs.com"; /* 阿里云平台上海站点的域名后缀 */
    char        host[100] = {0}; /* 用这个数组拼接设备连接的云平台站点全地址, 规则是 ${productKey}.iot-as-mqtt.cn-shanghai.aliyuncs.com */
    uint16_t    port = 443;      /* 无论设备是否使用TLS连接阿里云平台, 目的端口都是443 */
    aiot_sysdep_network_cred_t cred; /* 安全凭据结构体, 如果要用TLS, 这个结构体中配置CA证书等参数 */

    /* 创建SDK的安全凭据, 用于建立TLS连接 */
    memset(&cred, 0, sizeof(aiot_sysdep_network_cred_t));
    cred.option = AIOT_SYSDEP_NETWORK_CRED_SVRCERT_CA;  /* 使用RSA证书校验MQTT服务端 */
    cred.max_tls_fragment = 16384; /* 最大的分片长度为16K, 其它可选值还有4K, 2K, 1K, 0.5K */
    cred.sni_enabled = 1;                               /* TLS建连时, 支持Server Name Indicator */
    cred.x509_server_cert = ali_ca_cert;                 /* 用来验证MQTT服务端的RSA根证书 */
    cred.x509_server_cert_len = strlen(ali_ca_cert);     /* 用来验证MQTT服务端的RSA根证书长度 */

    /* TODO: 如果以下代码不被注释, 则例程会用TCP而不是TLS连接云平台 */
    /*
    {
        memset(&cred, 0, sizeof(aiot_sysdep_network_cred_t));
        cred.option = AIOT_SYSDEP_NETWORK_CRED_NONE;
    }
    */

    snprintf(host, 100, "%s.%s", product_key, url);
    /* 配置MQTT服务器地址 */
    aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_HOST, (void *)host);
    /* 配置MQTT服务器端口 */
    aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_PORT, (void *)&port);
	
	int pdp = diag_mqtt_profile_idx;
	aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_PROFILE_IDX, (void *)&pdp);
	
    /* 配置设备productKey */
    aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_PRODUCT_KEY, (void *)product_key);
    /* 配置设备deviceName */
    aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_DEVICE_NAME, (void *)device_name);
    /* 配置设备deviceSecret */
    aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_DEVICE_SECRET, (void *)device_secret);
    /* 配置网络连接的安全凭据, 上面已经创建好了 */
    aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_NETWORK_CRED, (void *)&cred);
    /* 配置MQTT默认消息接收回调函数 */
    aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_RECV_HANDLER, (void *)demo_mqtt_default_recv_handler);
    /* 配置MQTT事件回调函数 */
    aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_EVENT_HANDLER, (void *)demo_mqtt_event_handler);
	
	/* 配置MQTT连接超时时间 */
	int time_delay_ms = 5000;
	aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_CONNECT_TIMEOUT_MS, (void *)&time_delay_ms);

    /* 与服务器建立MQTT连接 */
    res = aiot_mqtt_connect(mqtt_handle);
    if (res < STATE_SUCCESS) {
        /* 尝试建立连接失败, 销毁MQTT实例, 回收资源 */
        aiot_mqtt_deinit(&mqtt_handle);
        uart_printf("aiot_mqtt_connect failed: -0x%04X\n", -res);
        return -1;
    }

    /* 创建一个单独的线程, 专用于执行aiot_mqtt_process, 它会自动发送心跳保活, 以及重发QoS1的未应答报文 */
    g_diag_mqtt_process_task_ref_running = 1;
	res = ql_rtos_task_create(&g_diag_mqtt_process_task_ref, 24000, 24, "client_proc", demo_mqtt_process_thread, (void*)mqtt_handle, 5);
    if (res < 0) {
        uart_printf("pthread_create demo_mqtt_process_thread failed: %d\n", res);
        aiot_mqtt_deinit(&mqtt_handle);
        return -1;
    }

    /* 创建一个单独的线程用于执行aiot_mqtt_recv, 它会循环收取服务器下发的MQTT消息, 并在断线时自动重连 */
    g_diag_mqtt_recv_task_ref_running = 1;
    res = ql_rtos_task_create(&g_diag_mqtt_recv_task_ref, 24000, 25, "recv_test", demo_mqtt_recv_thread, (void*)mqtt_handle, 5);
    if (res < 0) {
        uart_printf("pthread_create demo_mqtt_recv_thread failed: %d\n", res);
        g_diag_mqtt_process_task_ref_running = 0;
        aiot_mqtt_deinit(&mqtt_handle);
        return -1;
    }

    return 0;
}

static int32_t demo_mqtt_stop(void **handle)
{
    int32_t res = STATE_SUCCESS;
    void *mqtt_handle = NULL;

    mqtt_handle = *handle;

    g_diag_mqtt_process_task_ref_running = 0;
    g_diag_mqtt_recv_task_ref_running = 0;
//    pthread_join(g_diag_mqtt_process_task_ref, NULL);
//    pthread_join(g_diag_mqtt_recv_task_ref, NULL);
	ql_rtos_task_delete(g_diag_mqtt_process_task_ref);
	ql_rtos_task_delete(g_diag_mqtt_recv_task_ref);
    /* 断开MQTT连接 */
    res = aiot_mqtt_disconnect(mqtt_handle);
    if (res < STATE_SUCCESS) {
        aiot_mqtt_deinit(&mqtt_handle);
        uart_printf("aiot_mqtt_disconnect failed: -0x%04X\n", -res);
        return -1;
    }

    /* 销毁MQTT实例 */
    res = aiot_mqtt_deinit(&mqtt_handle);
    if (res < STATE_SUCCESS) {
        uart_printf("aiot_mqtt_deinit failed: -0x%04X\n", -res);
        return -1;
    }

    return 0;
}

/* 用户数据接收处理回调函数 */
static void demo_dm_recv_handler(void *dm_handle, const aiot_dm_recv_t *recv, void *userdata)
{
    uart_printf("demo_dm_recv_handler, type = %d\r\n", recv->type);

    switch (recv->type) {

        /* 属性上报, 事件上报, 获取期望属性值或者删除期望属性值的应答 */
        case AIOT_DMRECV_GENERIC_REPLY: {
            uart_printf("msg_id = %d, code = %d, data = %.*s, message = %.*s\r\n",
                   recv->data.generic_reply.msg_id,
                   recv->data.generic_reply.code,
                   recv->data.generic_reply.data_len,
                   recv->data.generic_reply.data,
                   recv->data.generic_reply.message_len,
                   recv->data.generic_reply.message);
        }
        break;

        /* 属性设置 */
        case AIOT_DMRECV_PROPERTY_SET: {
            uart_printf("msg_id = %ld, params = %.*s\r\n",
                   (unsigned long)recv->data.property_set.msg_id,
                   recv->data.property_set.params_len,
                   recv->data.property_set.params);

            /* TODO: 以下代码演示如何对来自云平台的属性设置指令进行应答, 用户可取消注释查看演示效果 */
            /*
            {
                aiot_dm_msg_t msg;

                memset(&msg, 0, sizeof(aiot_dm_msg_t));
                msg.type = AIOT_DMMSG_PROPERTY_SET_REPLY;
                msg.data.property_set_reply.msg_id = recv->data.property_set.msg_id;
                msg.data.property_set_reply.code = 200;
                msg.data.property_set_reply.data = "{}";
                int32_t res = aiot_dm_send(dm_handle, &msg);
                if (res < 0) {
                    uart_printf("aiot_dm_send failed\r\n");
                }
            }
            */
        }
        break;

        /* 异步服务调用 */
        case AIOT_DMRECV_ASYNC_SERVICE_INVOKE: {
            uart_printf("msg_id = %ld, service_id = %s, params = %.*s\r\n",
                   (unsigned long)recv->data.async_service_invoke.msg_id,
                   recv->data.async_service_invoke.service_id,
                   recv->data.async_service_invoke.params_len,
                   recv->data.async_service_invoke.params);

            /* TODO: 以下代码演示如何对来自云平台的异步服务调用进行应答, 用户可取消注释查看演示效果
             *
             * 注意: 如果用户在回调函数外进行应答, 需要自行保存msg_id, 因为回调函数入参在退出回调函数后将被SDK销毁, 不可以再访问到
             */

            /*
            {
                aiot_dm_msg_t msg;

                memset(&msg, 0, sizeof(aiot_dm_msg_t));
                msg.type = AIOT_DMMSG_ASYNC_SERVICE_REPLY;
                msg.data.async_service_reply.msg_id = recv->data.async_service_invoke.msg_id;
                msg.data.async_service_reply.code = 200;
                msg.data.async_service_reply.service_id = "ToggleLightSwitch";
                msg.data.async_service_reply.data = "{\"dataA\": 20}";
                int32_t res = aiot_dm_send(dm_handle, &msg);
                if (res < 0) {
                    uart_printf("aiot_dm_send failed\r\n");
                }
            }
            */
        }
        break;

        /* 同步服务调用 */
        case AIOT_DMRECV_SYNC_SERVICE_INVOKE: {
            uart_printf("msg_id = %ld, rrpc_id = %s, service_id = %s, params = %.*s\r\n",
                   (unsigned long)recv->data.sync_service_invoke.msg_id,
                   recv->data.sync_service_invoke.rrpc_id,
                   recv->data.sync_service_invoke.service_id,
                   recv->data.sync_service_invoke.params_len,
                   recv->data.sync_service_invoke.params);

            /* TODO: 以下代码演示如何对来自云平台的同步服务调用进行应答, 用户可取消注释查看演示效果
             *
             * 注意: 如果用户在回调函数外进行应答, 需要自行保存msg_id和rrpc_id字符串, 因为回调函数入参在退出回调函数后将被SDK销毁, 不可以再访问到
             */

            /*
            {
                aiot_dm_msg_t msg;

                memset(&msg, 0, sizeof(aiot_dm_msg_t));
                msg.type = AIOT_DMMSG_SYNC_SERVICE_REPLY;
                msg.data.sync_service_reply.rrpc_id = recv->data.sync_service_invoke.rrpc_id;
                msg.data.sync_service_reply.msg_id = recv->data.sync_service_invoke.msg_id;
                msg.data.sync_service_reply.code = 200;
                msg.data.sync_service_reply.service_id = "SetLightSwitchTimer";
                msg.data.sync_service_reply.data = "{}";
                int32_t res = aiot_dm_send(dm_handle, &msg);
                if (res < 0) {
                    uart_printf("aiot_dm_send failed\r\n");
                }
            }
            */
        }
        break;

        /* 下行二进制数据 */
        case AIOT_DMRECV_RAW_DATA: {
            uart_printf("raw data len = %d\r\n", recv->data.raw_data.data_len);
            /* TODO: 以下代码演示如何发送二进制格式数据, 若使用需要有相应的数据透传脚本部署在云端 */
            /*
            {
                aiot_dm_msg_t msg;
                uint8_t raw_data[] = {0x01, 0x02};

                memset(&msg, 0, sizeof(aiot_dm_msg_t));
                msg.type = AIOT_DMMSG_RAW_DATA;
                msg.data.raw_data.data = raw_data;
                msg.data.raw_data.data_len = sizeof(raw_data);
                aiot_dm_send(dm_handle, &msg);
            }
            */
        }
        break;

        /* 二进制格式的同步服务调用, 比单纯的二进制数据消息多了个rrpc_id */
        case AIOT_DMRECV_RAW_SYNC_SERVICE_INVOKE: {
            uart_printf("raw sync service rrpc_id = %s, data_len = %d\r\n",
                   recv->data.raw_service_invoke.rrpc_id,
                   recv->data.raw_service_invoke.data_len);
        }
        break;

        default:
            break;
    }
}

static int32_t demo_dm_start(void **handle, void *mqtt_handle, char *product_key, char *device_name)
{
    void *dm_handle = NULL;

    dm_handle = aiot_dm_init();
    if (dm_handle == NULL) {
        return -1;
    }

    /* 配置MQTT实例句柄 */
    aiot_dm_setopt(dm_handle, AIOT_DMOPT_MQTT_HANDLE, mqtt_handle);
    /* 配置消息接收处理回调函数 */
    aiot_dm_setopt(dm_handle, AIOT_DMOPT_RECV_HANDLER, (void *)demo_dm_recv_handler);

    *handle = dm_handle;

    return STATE_SUCCESS;
}

static int32_t demo_dm_stop(void **handle)
{
    int32_t res = STATE_SUCCESS;

    /* 销毁DATA-MODEL实例, 一般不会运行到这里 */
    res = aiot_dm_deinit(handle);
    if (res < STATE_SUCCESS) {
        uart_printf("aiot_dm_deinit failed: -0x%04X\n", -res);
        return -1;
    }

    return STATE_SUCCESS;
}

/* 事件回调函数, 当网络连接/重连/断开时被触发, 事件定义见core/aiot_diag_api.h */
static void demo_diag_event_handler(void *handle, const aiot_diag_event_t *event, void *userdata)
{
    switch (event->type) {
        case AIOT_DIAGEVT_ALERT: {
            uart_printf("AIOT_DIAGEVT_ALERT, module name: %s, level: %s, desc: %s\n",
                    event->data.alert.module_name, event->data.alert.level, event->data.alert.desc);
        }
        break;
        default: {

        }
    }
}

/* 数据处理回调, 当SDK从网络上收到diag消息时被调用 */
// static void demo_diag_recv_handler(void *handle, const aiot_diag_recv_t *packet, void *userdata)
// {
//     switch (packet->type) {
//         case AIOT_DIAGRECV_DIAG_CONTROL: {
//         }
//         break;
//         default: {
// 
//         }
//     }
// }

static void ali_diag_test(void *arg)
{
    int32_t     res = STATE_SUCCESS;
    void       *mqtt_handle = NULL, *diag_handle = NULL, *dm_handle = NULL;

	/* TODO: 替换为自己设备的三元组 */
    char *product_key = "a1TSu2F29co";
    char *device_name = "000001";
    char *device_secret = "bd220c3a9c6a5b3f5921485d091497e1";

	
	/*执行拨号操作，设备联网*/
	if(datacall_satrt()!=0)
		goto exit;
		//return;


    /* 配置SDK的底层依赖 */
    aiot_sysdep_set_portfile(&g_aiot_sysdep_portfile);
    /* 配置SDK的日志输出 */
    aiot_state_set_logcb(demo_state_logcb);

    /* 创建1个MQTT客户端实例并内部初始化默认参数 */
    mqtt_handle = aiot_mqtt_init();
    if (mqtt_handle == NULL) {
        uart_printf("aiot_mqtt_init failed\n");
        goto exit;
		//return;
    }

    diag_handle = aiot_diag_init();
    if (diag_handle == NULL) {
        uart_printf("aiot_diag_init failed\n");
        goto exit;
		//return;
    }

    aiot_diag_setopt(diag_handle, AIOT_DIAGOPT_MQTT_HANDLE, mqtt_handle);
    aiot_diag_setopt(diag_handle, AIOT_DIAGOPT_EVENT_HANDLER, demo_diag_event_handler);

    aiot_diag_start(diag_handle);

    /* 建立MQTT连接, 并开启保活线程和接收线程 */
    res = demo_mqtt_start(mqtt_handle, product_key, device_name, device_secret);
    if (res < 0) {
        uart_printf("demo_mqtt_start failed\n");
        goto exit;
		//return;
    }

    res = demo_dm_start(&dm_handle, mqtt_handle, product_key, device_name);
    if (res < 0) {
        uart_printf("demo_dm_start failed\n");
        goto exit;
		//return;
    }

    /* {
        aiot_dm_msg_t msg;

        memset(&msg, 0, sizeof(aiot_dm_msg_t));
        msg.type = AIOT_DMMSG_PROPERTY_POST;
        msg.data.property_post.params = "{\"LightSwitch\":1}";

        res = aiot_dm_send(dm_handle, &msg);
    } */

    while(1) {
        ql_rtos_task_sleep_s(1);
    }
	
exit:
    /* 销毁dm实例, 一般不会运行到这里 */
    demo_dm_stop(&dm_handle);

    /* 销毁diag实例, 一般不会运行到这里 */
    aiot_diag_deinit(&diag_handle);

    /* 销毁MQTT实例, 退出线程, 一般不会运行到这里 */
    demo_mqtt_stop(&mqtt_handle);

    return;
}

#define QL_ALI_TASK_STACK_SIZE 10240
#define QL_ALI_TASK_PRIO APP_PRIORITY_NORMAL
#define QL_ALI_TASK_EVENT_CNT 5

int ql_ali_sdk_diag_test_init(void)
{
	QlOSStatus   status;
    int count = 0;
    /* 主体进入休眠 */
    while (count < 10)
    {
        count++;
        ql_rtos_task_sleep_s(1);
        uart_printf("ql_ali_sdk_mqtt_client_test_init  -0x%04X\n", count);
    }
	status =ql_rtos_task_create(&ql_alisdk_diag_task_ref, QL_ALI_TASK_STACK_SIZE, APP_PRIORITY_NORMAL, "diag_test", ali_diag_test, NULL, QL_ALI_TASK_EVENT_CNT);
    if (status != QL_OSI_SUCCESS)
    {
        uart_printf("ql_ali_sdk_diag_test_init error");
        return -1;
    }
    return 0;
}
temp 2024-02-05 17:39:56 +08:00			`/*`
			* 这个例程适用于`rtos`这类支持task的设备, 它演示了......
			`*`
			`* 需要用户关注或修改的部分, 已经用 TODO 在注释中标明`
			`*`
			`*/`
			`#include <stdio.h>`
			`#include <string.h>`

			`#include "aiot_state_api.h"`
			`#include "aiot_sysdep_api.h"`
			`#include "aiot_mqtt_api.h"`
			`#include "aiot_dm_api.h"`
			`#include "aiot_diag_api.h"`

			`#include "ali_demo.h"`
			`#include "ql_api_osi.h"`
			`#include "ql_api_nw.h"`
			`#include "ali_demo.h"`
			`#include "ql_log.h"`
			`#include "ql_api_datacall.h"`
			`#include "sockets.h"`
			`#include "lwip/ip_addr.h"`
			`#include "lwip/ip6_addr.h"`

			`#include "lwip/netdb.h"`
			`#include "lwip/netif.h"`
			`#include "lwip/inet.h"`
			`#include "lwip/tcp.h"`

			`#define QL_SOCKET_LOG_LEVEL QL_LOG_LEVEL_INFO`
			`#define uart_printf(msg, ...) QL_LOG(QL_SOCKET_LOG_LEVEL, "linkSDK ", msg, ##__VA_ARGS__)`

			`#define diag_mqtt_profile_idx 1`

			`/* 位于portfiles/aiot_port文件夹下的系统适配函数集合 */`
			`extern aiot_sysdep_portfile_t g_aiot_sysdep_portfile;`

			`/* 位于external/ali_ca_cert.c中的服务器证书 */`
			`extern const char *ali_ca_cert;`

			`ql_task_t ql_alisdk_diag_task_ref;`
			`ql_task_t g_diag_mqtt_process_task_ref;`
			`ql_task_t g_diag_mqtt_recv_task_ref;`
			`static uint8_t g_diag_mqtt_process_task_ref_running = 0;`
			`static uint8_t g_diag_mqtt_recv_task_ref_running = 0;`

			`static int datacall_satrt(void)`
			`{`
			`int ret = 0;`
			`int i = 0;`
			`ql_data_call_info_s info;`
			`char ip4_addr_str[16] = {0};`
			`uint8_t nSim = 0;`

			`ql_rtos_task_sleep_s(10);`
			`uart_printf("========== socket demo start ==========");`
			`uart_printf("wait for network register done");`

			`while ((ret = ql_network_register_wait(nSim, 120)) != 0 && i < 10)`
			`{`
			`i++;`
			`ql_rtos_task_sleep_s(1);`
			`}`
			`if (ret == 0)`
			`{`
			`i = 0;`
			`uart_printf("====network registered!!!!====");`
			`}`
			`else`
			`{`
			`uart_printf("====network register failure!!!!!====");`
			`goto exit;`
			`}`

			`ql_set_data_call_asyn_mode(nSim, diag_mqtt_profile_idx, 0);`

			`uart_printf("===start data call====");`
			`ret = ql_start_data_call(nSim, diag_mqtt_profile_idx, QL_PDP_TYPE_IP, "uninet", NULL, NULL, 0);`
			`uart_printf("===data call result:%d", ret);`
			`if (ret != 0)`
			`{`
			`uart_printf("====data call failure!!!!=====");`
			`}`
			`memset(&info, 0x00, sizeof(ql_data_call_info_s));`

			`ret = ql_get_data_call_info(nSim, diag_mqtt_profile_idx, &info);`
			`if (ret != 0)`
			`{`
			`uart_printf("ql_get_data_call_info ret: %d", ret);`
			`ql_stop_data_call(nSim, diag_mqtt_profile_idx);`
			`goto exit;`
			`}`
			`uart_printf("info->mqtt_profile_idx: %d", info.profile_idx);`
			`uart_printf("info->ip_version: %d", info.ip_version);`

			`uart_printf("info->v4.state: %d", info.v4.state);`
			`inet_ntop(AF_INET, &info.v4.addr.ip, ip4_addr_str, sizeof(ip4_addr_str));`
			`uart_printf("info.v4.addr.ip: %s\r\n", ip4_addr_str);`

			`inet_ntop(AF_INET, &info.v4.addr.pri_dns, ip4_addr_str, sizeof(ip4_addr_str));`
			`uart_printf("info.v4.addr.pri_dns: %s\r\n", ip4_addr_str);`

			`inet_ntop(AF_INET, &info.v4.addr.sec_dns, ip4_addr_str, sizeof(ip4_addr_str));`
			`uart_printf("info.v4.addr.sec_dns: %s\r\n", ip4_addr_str);`

			`return 0;`
			`exit:`
			`return -1;`
			`}`


			`/* TODO: 如果要关闭日志, 就把这个函数实现为空, 如果要减少日志, 可根据code选择不打印`
			`*`
			`* 例如: [1577589489.033][LK-0317] diag_basic_demo&a13FN5TplKq`
			`*`
			`* 上面这条日志的code就是0317(十六进制), code值的定义见core/aiot_state_api.h`
			`*`
			`*/`

			`/* 日志回调函数, SDK的日志会从这里输出 */`
			`static int32_t demo_state_logcb(int32_t code, char *message)`
			`{`
			`uart_printf("%s", message);`
			`return 0;`
			`}`

			`/* MQTT事件回调函数, 当网络连接/重连/断开时被触发, 事件定义见core/aiot_mqtt_api.h */`
			`static void demo_mqtt_event_handler(void handle, const aiot_mqtt_event_t event, void *userdata)`
			`{`
			`switch (event->type) {`
			`/* SDK因为用户调用了aiot_mqtt_connect()接口, 与mqtt服务器建立连接已成功 */`
			`case AIOT_MQTTEVT_CONNECT: {`
			`uart_printf("AIOT_MQTTEVT_CONNECT\n");`
			`}`
			`break;`

			`/* SDK因为网络状况被动断连后, 自动发起重连已成功 */`
			`case AIOT_MQTTEVT_RECONNECT: {`
			`uart_printf("AIOT_MQTTEVT_RECONNECT\n");`
			`}`
			`break;`

			`/* SDK因为网络的状况而被动断开了连接, network是底层读写失败, heartbeat是没有按预期得到服务端心跳应答 */`
			`case AIOT_MQTTEVT_DISCONNECT: {`
			`char *cause = (event->data.disconnect == AIOT_MQTTDISCONNEVT_NETWORK_DISCONNECT) ? ("network disconnect") :`
			`("heartbeat disconnect");`
			`uart_printf("AIOT_MQTTEVT_DISCONNECT: %s\n", cause);`
			`}`
			`break;`

			`default: {`

			`}`
			`}`
			`}`

			`/* MQTT默认消息处理回调, 当SDK从服务器收到MQTT消息时, 且无对应用户回调处理时被调用 */`
			`static void demo_mqtt_default_recv_handler(void handle, const aiot_mqtt_recv_t packet, void *userdata)`
			`{`
			`switch (packet->type) {`
			`case AIOT_MQTTRECV_HEARTBEAT_RESPONSE: {`
			`uart_printf("heartbeat response\n");`
			`}`
			`break;`

			`case AIOT_MQTTRECV_SUB_ACK: {`
			`uart_printf("suback, res: -0x%04X, packet id: %d, max qos: %d\n",`
			`-packet->data.sub_ack.res, packet->data.sub_ack.packet_id, packet->data.sub_ack.max_qos);`
			`}`
			`break;`

			`case AIOT_MQTTRECV_PUB: {`
			`uart_printf("pub, qos: %d, topic: %.*s\n", packet->data.pub.qos, packet->data.pub.topic_len, packet->data.pub.topic);`
			`uart_printf("pub, payload: %.*s\n", packet->data.pub.payload_len, packet->data.pub.payload);`
			`}`
			`break;`

			`case AIOT_MQTTRECV_PUB_ACK: {`
			`uart_printf("puback, packet id: %d\n", packet->data.pub_ack.packet_id);`
			`}`
			`break;`

			`default: {`

			`}`
			`}`
			`}`

			`/* 执行aiot_mqtt_process的线程, 包含心跳发送和QoS1消息重发 */`
			`static void demo_mqtt_process_thread(void *args)`
			`{`
			`int32_t res = STATE_SUCCESS;`

			`while (g_diag_mqtt_process_task_ref_running) {`
			`res = aiot_mqtt_process(args);`
			`if (res == STATE_USER_INPUT_EXEC_DISABLED) {`
			`break;`
			`}`
			`ql_rtos_task_sleep_s(1);`
			`}`
			`return;`
			`}`

			`/* 执行aiot_mqtt_recv的线程, 包含网络自动重连和从服务器收取MQTT消息 */`
			`static void demo_mqtt_recv_thread(void *args)`
			`{`
			`int32_t res = STATE_SUCCESS;`

			`while (g_diag_mqtt_recv_task_ref_running) {`
			`res = aiot_mqtt_recv(args);`
			`if (res < STATE_SUCCESS) {`
			`if (res == STATE_USER_INPUT_EXEC_DISABLED) {`
			`break;`
			`}`
			`ql_rtos_task_sleep_s(1);`
			`}`
			`}`
			`return;`
			`}`

			`static int32_t demo_mqtt_start(void handle, char product_key, char device_name, char device_secret)`
			`{`
			`int32_t res = STATE_SUCCESS;`
			`void *mqtt_handle = handle;`
			`char url = "iot-as-mqtt.cn-shanghai.aliyuncs.com"; / 阿里云平台上海站点的域名后缀 */`
			`char host[100] = {0}; /* 用这个数组拼接设备连接的云平台站点全地址, 规则是 ${productKey}.iot-as-mqtt.cn-shanghai.aliyuncs.com */`
			`uint16_t port = 443; /* 无论设备是否使用TLS连接阿里云平台, 目的端口都是443 */`
			`aiot_sysdep_network_cred_t cred; /* 安全凭据结构体, 如果要用TLS, 这个结构体中配置CA证书等参数 */`

			`/* 创建SDK的安全凭据, 用于建立TLS连接 */`
			`memset(&cred, 0, sizeof(aiot_sysdep_network_cred_t));`
			`cred.option = AIOT_SYSDEP_NETWORK_CRED_SVRCERT_CA; /* 使用RSA证书校验MQTT服务端 */`
			`cred.max_tls_fragment = 16384; /* 最大的分片长度为16K, 其它可选值还有4K, 2K, 1K, 0.5K */`
			`cred.sni_enabled = 1; /* TLS建连时, 支持Server Name Indicator */`
			`cred.x509_server_cert = ali_ca_cert; /* 用来验证MQTT服务端的RSA根证书 */`
			`cred.x509_server_cert_len = strlen(ali_ca_cert); /* 用来验证MQTT服务端的RSA根证书长度 */`

			`/* TODO: 如果以下代码不被注释, 则例程会用TCP而不是TLS连接云平台 */`
			`/*`
			`{`
			`memset(&cred, 0, sizeof(aiot_sysdep_network_cred_t));`
			`cred.option = AIOT_SYSDEP_NETWORK_CRED_NONE;`
			`}`
			`*/`

			`snprintf(host, 100, "%s.%s", product_key, url);`
			`/* 配置MQTT服务器地址 */`
			`aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_HOST, (void *)host);`
			`/* 配置MQTT服务器端口 */`
			`aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_PORT, (void *)&port);`

			`int pdp = diag_mqtt_profile_idx;`
			`aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_PROFILE_IDX, (void *)&pdp);`

			`/* 配置设备productKey */`
			`aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_PRODUCT_KEY, (void *)product_key);`
			`/* 配置设备deviceName */`
			`aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_DEVICE_NAME, (void *)device_name);`
			`/* 配置设备deviceSecret */`
			`aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_DEVICE_SECRET, (void *)device_secret);`
			`/* 配置网络连接的安全凭据, 上面已经创建好了 */`
			`aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_NETWORK_CRED, (void *)&cred);`
			`/* 配置MQTT默认消息接收回调函数 */`
			`aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_RECV_HANDLER, (void *)demo_mqtt_default_recv_handler);`
			`/* 配置MQTT事件回调函数 */`
			`aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_EVENT_HANDLER, (void *)demo_mqtt_event_handler);`

			`/* 配置MQTT连接超时时间 */`
			`int time_delay_ms = 5000;`
			`aiot_mqtt_setopt(mqtt_handle, AIOT_MQTTOPT_CONNECT_TIMEOUT_MS, (void *)&time_delay_ms);`

			`/* 与服务器建立MQTT连接 */`
			`res = aiot_mqtt_connect(mqtt_handle);`
			`if (res < STATE_SUCCESS) {`
			`/* 尝试建立连接失败, 销毁MQTT实例, 回收资源 */`
			`aiot_mqtt_deinit(&mqtt_handle);`
			`uart_printf("aiot_mqtt_connect failed: -0x%04X\n", -res);`
			`return -1;`
			`}`

			`/* 创建一个单独的线程, 专用于执行aiot_mqtt_process, 它会自动发送心跳保活, 以及重发QoS1的未应答报文 */`
			`g_diag_mqtt_process_task_ref_running = 1;`
			`res = ql_rtos_task_create(&g_diag_mqtt_process_task_ref, 24000, 24, "client_proc", demo_mqtt_process_thread, (void*)mqtt_handle, 5);`
			`if (res < 0) {`
			`uart_printf("pthread_create demo_mqtt_process_thread failed: %d\n", res);`
			`aiot_mqtt_deinit(&mqtt_handle);`
			`return -1;`
			`}`

			`/* 创建一个单独的线程用于执行aiot_mqtt_recv, 它会循环收取服务器下发的MQTT消息, 并在断线时自动重连 */`
			`g_diag_mqtt_recv_task_ref_running = 1;`
			`res = ql_rtos_task_create(&g_diag_mqtt_recv_task_ref, 24000, 25, "recv_test", demo_mqtt_recv_thread, (void*)mqtt_handle, 5);`
			`if (res < 0) {`
			`uart_printf("pthread_create demo_mqtt_recv_thread failed: %d\n", res);`
			`g_diag_mqtt_process_task_ref_running = 0;`
			`aiot_mqtt_deinit(&mqtt_handle);`
			`return -1;`
			`}`

			`return 0;`
			`}`

			`static int32_t demo_mqtt_stop(void **handle)`
			`{`
			`int32_t res = STATE_SUCCESS;`
			`void *mqtt_handle = NULL;`

			`mqtt_handle = *handle;`

			`g_diag_mqtt_process_task_ref_running = 0;`
			`g_diag_mqtt_recv_task_ref_running = 0;`
			`// pthread_join(g_diag_mqtt_process_task_ref, NULL);`
			`// pthread_join(g_diag_mqtt_recv_task_ref, NULL);`
			`ql_rtos_task_delete(g_diag_mqtt_process_task_ref);`
			`ql_rtos_task_delete(g_diag_mqtt_recv_task_ref);`
			`/* 断开MQTT连接 */`
			`res = aiot_mqtt_disconnect(mqtt_handle);`
			`if (res < STATE_SUCCESS) {`
			`aiot_mqtt_deinit(&mqtt_handle);`
			`uart_printf("aiot_mqtt_disconnect failed: -0x%04X\n", -res);`
			`return -1;`
			`}`

			`/* 销毁MQTT实例 */`
			`res = aiot_mqtt_deinit(&mqtt_handle);`
			`if (res < STATE_SUCCESS) {`
			`uart_printf("aiot_mqtt_deinit failed: -0x%04X\n", -res);`
			`return -1;`
			`}`

			`return 0;`
			`}`

			`/* 用户数据接收处理回调函数 */`
			`static void demo_dm_recv_handler(void dm_handle, const aiot_dm_recv_t recv, void *userdata)`
			`{`
			`uart_printf("demo_dm_recv_handler, type = %d\r\n", recv->type);`

			`switch (recv->type) {`

			`/* 属性上报, 事件上报, 获取期望属性值或者删除期望属性值的应答 */`
			`case AIOT_DMRECV_GENERIC_REPLY: {`
			`uart_printf("msg_id = %d, code = %d, data = %.s, message = %.s\r\n",`
			`recv->data.generic_reply.msg_id,`
			`recv->data.generic_reply.code,`
			`recv->data.generic_reply.data_len,`
			`recv->data.generic_reply.data,`
			`recv->data.generic_reply.message_len,`
			`recv->data.generic_reply.message);`
			`}`
			`break;`

			`/* 属性设置 */`
			`case AIOT_DMRECV_PROPERTY_SET: {`
			`uart_printf("msg_id = %ld, params = %.*s\r\n",`
			`(unsigned long)recv->data.property_set.msg_id,`
			`recv->data.property_set.params_len,`
			`recv->data.property_set.params);`

			`/* TODO: 以下代码演示如何对来自云平台的属性设置指令进行应答, 用户可取消注释查看演示效果 */`
			`/*`
			`{`
			`aiot_dm_msg_t msg;`

			`memset(&msg, 0, sizeof(aiot_dm_msg_t));`
			`msg.type = AIOT_DMMSG_PROPERTY_SET_REPLY;`
			`msg.data.property_set_reply.msg_id = recv->data.property_set.msg_id;`
			`msg.data.property_set_reply.code = 200;`
			`msg.data.property_set_reply.data = "{}";`
			`int32_t res = aiot_dm_send(dm_handle, &msg);`
			`if (res < 0) {`
			`uart_printf("aiot_dm_send failed\r\n");`
			`}`
			`}`
			`*/`
			`}`
			`break;`

			`/* 异步服务调用 */`
			`case AIOT_DMRECV_ASYNC_SERVICE_INVOKE: {`
			`uart_printf("msg_id = %ld, service_id = %s, params = %.*s\r\n",`
			`(unsigned long)recv->data.async_service_invoke.msg_id,`
			`recv->data.async_service_invoke.service_id,`
			`recv->data.async_service_invoke.params_len,`
			`recv->data.async_service_invoke.params);`

			`/* TODO: 以下代码演示如何对来自云平台的异步服务调用进行应答, 用户可取消注释查看演示效果`
			`*`
			`* 注意: 如果用户在回调函数外进行应答, 需要自行保存msg_id, 因为回调函数入参在退出回调函数后将被SDK销毁, 不可以再访问到`
			`*/`

			`/*`
			`{`
			`aiot_dm_msg_t msg;`

			`memset(&msg, 0, sizeof(aiot_dm_msg_t));`
			`msg.type = AIOT_DMMSG_ASYNC_SERVICE_REPLY;`
			`msg.data.async_service_reply.msg_id = recv->data.async_service_invoke.msg_id;`
			`msg.data.async_service_reply.code = 200;`
			`msg.data.async_service_reply.service_id = "ToggleLightSwitch";`
			`msg.data.async_service_reply.data = "{\"dataA\": 20}";`
			`int32_t res = aiot_dm_send(dm_handle, &msg);`
			`if (res < 0) {`
			`uart_printf("aiot_dm_send failed\r\n");`
			`}`
			`}`
			`*/`
			`}`
			`break;`

			`/* 同步服务调用 */`
			`case AIOT_DMRECV_SYNC_SERVICE_INVOKE: {`
			`uart_printf("msg_id = %ld, rrpc_id = %s, service_id = %s, params = %.*s\r\n",`
			`(unsigned long)recv->data.sync_service_invoke.msg_id,`
			`recv->data.sync_service_invoke.rrpc_id,`
			`recv->data.sync_service_invoke.service_id,`
			`recv->data.sync_service_invoke.params_len,`
			`recv->data.sync_service_invoke.params);`

			`/* TODO: 以下代码演示如何对来自云平台的同步服务调用进行应答, 用户可取消注释查看演示效果`
			`*`
			`* 注意: 如果用户在回调函数外进行应答, 需要自行保存msg_id和rrpc_id字符串, 因为回调函数入参在退出回调函数后将被SDK销毁, 不可以再访问到`
			`*/`

			`/*`
			`{`
			`aiot_dm_msg_t msg;`

			`memset(&msg, 0, sizeof(aiot_dm_msg_t));`
			`msg.type = AIOT_DMMSG_SYNC_SERVICE_REPLY;`
			`msg.data.sync_service_reply.rrpc_id = recv->data.sync_service_invoke.rrpc_id;`
			`msg.data.sync_service_reply.msg_id = recv->data.sync_service_invoke.msg_id;`
			`msg.data.sync_service_reply.code = 200;`
			`msg.data.sync_service_reply.service_id = "SetLightSwitchTimer";`
			`msg.data.sync_service_reply.data = "{}";`
			`int32_t res = aiot_dm_send(dm_handle, &msg);`
			`if (res < 0) {`
			`uart_printf("aiot_dm_send failed\r\n");`
			`}`
			`}`
			`*/`
			`}`
			`break;`

			`/* 下行二进制数据 */`
			`case AIOT_DMRECV_RAW_DATA: {`
			`uart_printf("raw data len = %d\r\n", recv->data.raw_data.data_len);`
			`/* TODO: 以下代码演示如何发送二进制格式数据, 若使用需要有相应的数据透传脚本部署在云端 */`
			`/*`
			`{`
			`aiot_dm_msg_t msg;`
			`uint8_t raw_data[] = {0x01, 0x02};`

			`memset(&msg, 0, sizeof(aiot_dm_msg_t));`
			`msg.type = AIOT_DMMSG_RAW_DATA;`
			`msg.data.raw_data.data = raw_data;`
			`msg.data.raw_data.data_len = sizeof(raw_data);`
			`aiot_dm_send(dm_handle, &msg);`
			`}`
			`*/`
			`}`
			`break;`

			`/* 二进制格式的同步服务调用, 比单纯的二进制数据消息多了个rrpc_id */`
			`case AIOT_DMRECV_RAW_SYNC_SERVICE_INVOKE: {`
			`uart_printf("raw sync service rrpc_id = %s, data_len = %d\r\n",`
			`recv->data.raw_service_invoke.rrpc_id,`
			`recv->data.raw_service_invoke.data_len);`
			`}`
			`break;`

			`default:`
			`break;`
			`}`
			`}`

			`static int32_t demo_dm_start(void *handle, void mqtt_handle, char product_key, char device_name)`
			`{`
			`void *dm_handle = NULL;`

			`dm_handle = aiot_dm_init();`
			`if (dm_handle == NULL) {`
			`return -1;`
			`}`

			`/* 配置MQTT实例句柄 */`
			`aiot_dm_setopt(dm_handle, AIOT_DMOPT_MQTT_HANDLE, mqtt_handle);`
			`/* 配置消息接收处理回调函数 */`
			`aiot_dm_setopt(dm_handle, AIOT_DMOPT_RECV_HANDLER, (void *)demo_dm_recv_handler);`

			`*handle = dm_handle;`

			`return STATE_SUCCESS;`
			`}`

			`static int32_t demo_dm_stop(void **handle)`
			`{`
			`int32_t res = STATE_SUCCESS;`

			`/* 销毁DATA-MODEL实例, 一般不会运行到这里 */`
			`res = aiot_dm_deinit(handle);`
			`if (res < STATE_SUCCESS) {`
			`uart_printf("aiot_dm_deinit failed: -0x%04X\n", -res);`
			`return -1;`
			`}`

			`return STATE_SUCCESS;`
			`}`

			`/* 事件回调函数, 当网络连接/重连/断开时被触发, 事件定义见core/aiot_diag_api.h */`
			`static void demo_diag_event_handler(void handle, const aiot_diag_event_t event, void *userdata)`
			`{`
			`switch (event->type) {`
			`case AIOT_DIAGEVT_ALERT: {`
			`uart_printf("AIOT_DIAGEVT_ALERT, module name: %s, level: %s, desc: %s\n",`
			`event->data.alert.module_name, event->data.alert.level, event->data.alert.desc);`
			`}`
			`break;`
			`default: {`

			`}`
			`}`
			`}`

			`/* 数据处理回调, 当SDK从网络上收到diag消息时被调用 */`
			`// static void demo_diag_recv_handler(void handle, const aiot_diag_recv_t packet, void *userdata)`
			`// {`
			`// switch (packet->type) {`
			`// case AIOT_DIAGRECV_DIAG_CONTROL: {`
			`// }`
			`// break;`
			`// default: {`
			`//`
			`// }`
			`// }`
			`// }`

			`static void ali_diag_test(void *arg)`
			`{`
			`int32_t res = STATE_SUCCESS;`
			`void mqtt_handle = NULL, diag_handle = NULL, *dm_handle = NULL;`

			`/* TODO: 替换为自己设备的三元组 */`
			`char *product_key = "a1TSu2F29co";`
			`char *device_name = "000001";`
			`char *device_secret = "bd220c3a9c6a5b3f5921485d091497e1";`


			`/执行拨号操作，设备联网/`
			`if(datacall_satrt()!=0)`
			`goto exit;`
			`//return;`


			`/* 配置SDK的底层依赖 */`
			`aiot_sysdep_set_portfile(&g_aiot_sysdep_portfile);`
			`/* 配置SDK的日志输出 */`
			`aiot_state_set_logcb(demo_state_logcb);`

			`/* 创建1个MQTT客户端实例并内部初始化默认参数 */`
			`mqtt_handle = aiot_mqtt_init();`
			`if (mqtt_handle == NULL) {`
			`uart_printf("aiot_mqtt_init failed\n");`
			`goto exit;`
			`//return;`
			`}`

			`diag_handle = aiot_diag_init();`
			`if (diag_handle == NULL) {`
			`uart_printf("aiot_diag_init failed\n");`
			`goto exit;`
			`//return;`
			`}`

			`aiot_diag_setopt(diag_handle, AIOT_DIAGOPT_MQTT_HANDLE, mqtt_handle);`
			`aiot_diag_setopt(diag_handle, AIOT_DIAGOPT_EVENT_HANDLER, demo_diag_event_handler);`

			`aiot_diag_start(diag_handle);`

			`/* 建立MQTT连接, 并开启保活线程和接收线程 */`
			`res = demo_mqtt_start(mqtt_handle, product_key, device_name, device_secret);`
			`if (res < 0) {`
			`uart_printf("demo_mqtt_start failed\n");`
			`goto exit;`
			`//return;`
			`}`

			`res = demo_dm_start(&dm_handle, mqtt_handle, product_key, device_name);`
			`if (res < 0) {`
			`uart_printf("demo_dm_start failed\n");`
			`goto exit;`
			`//return;`
			`}`

			`/* {`
			`aiot_dm_msg_t msg;`

			`memset(&msg, 0, sizeof(aiot_dm_msg_t));`
			`msg.type = AIOT_DMMSG_PROPERTY_POST;`
			`msg.data.property_post.params = "{\"LightSwitch\":1}";`

			`res = aiot_dm_send(dm_handle, &msg);`
			`} */`

			`while(1) {`
			`ql_rtos_task_sleep_s(1);`
			`}`

			`exit:`
			`/* 销毁dm实例, 一般不会运行到这里 */`
			`demo_dm_stop(&dm_handle);`

			`/* 销毁diag实例, 一般不会运行到这里 */`
			`aiot_diag_deinit(&diag_handle);`

			`/* 销毁MQTT实例, 退出线程, 一般不会运行到这里 */`
			`demo_mqtt_stop(&mqtt_handle);`

			`return;`
			`}`

			`#define QL_ALI_TASK_STACK_SIZE 10240`
			`#define QL_ALI_TASK_PRIO APP_PRIORITY_NORMAL`
			`#define QL_ALI_TASK_EVENT_CNT 5`

			`int ql_ali_sdk_diag_test_init(void)`
			`{`
			`QlOSStatus status;`
			`int count = 0;`
			`/* 主体进入休眠 */`
			`while (count < 10)`
			`{`
			`count++;`
			`ql_rtos_task_sleep_s(1);`
			`uart_printf("ql_ali_sdk_mqtt_client_test_init -0x%04X\n", count);`
			`}`
			`status =ql_rtos_task_create(&ql_alisdk_diag_task_ref, QL_ALI_TASK_STACK_SIZE, APP_PRIORITY_NORMAL, "diag_test", ali_diag_test, NULL, QL_ALI_TASK_EVENT_CNT);`
			`if (status != QL_OSI_SUCCESS)`
			`{`
			`uart_printf("ql_ali_sdk_diag_test_init error");`
			`return -1;`
			`}`
			`return 0;`
			`}`