esp-open-rtos/examples/aws_iot/aws_iot.c

/*
 * Derived from examples/mqtt_client/mqtt_client.c - added TLS1.2 support and some minor modifications.
 */
#include "espressif/esp_common.h"
#include "esp/uart.h"

#include <string.h>

#include <FreeRTOS.h>
#include <task.h>
#include <queue.h>
#include <ssid_config.h>

#include <espressif/esp_sta.h>
#include <espressif/esp_wifi.h>

#include <paho_mqtt_c/MQTTESP8266.h>
#include <paho_mqtt_c/MQTTClient.h>

// this must be ahead of any mbedtls header files so the local mbedtls/config.h can be properly referenced
#include "ssl_connection.h"

#define MQTT_PUB_TOPIC "esp8266/status"
#define MQTT_SUB_TOPIC "esp8266/control"
#define GPIO_LED 2
#define MQTT_PORT 8883

/* certs, key, and endpoint */
extern char *ca_cert, *client_endpoint, *client_cert, *client_key;

static int wifi_alive = 0;
static int ssl_reset;
static SSLConnection *ssl_conn;
static QueueHandle_t publish_queue;

static void beat_task(void *pvParameters) {
    char msg[16];
    int count = 0;

    while (1) {
        if (!wifi_alive) {
            vTaskDelay(1000 / portTICK_PERIOD_MS);
            continue;
        }

        printf("Schedule to publish\r\n");

        snprintf(msg, sizeof(msg), "%d", count);
        if (xQueueSend(publish_queue, (void *) msg, 0) == pdFALSE) {
            printf("Publish queue overflow\r\n");
        }

        vTaskDelay(10000 / portTICK_PERIOD_MS);
    }
}

static void topic_received(mqtt_message_data_t *md) {
    mqtt_message_t *message = md->message;
    int i;

    printf("Received: ");
    for (i = 0; i < md->topic->lenstring.len; ++i)
        printf("%c", md->topic->lenstring.data[i]);

    printf(" = ");
    for (i = 0; i < (int) message->payloadlen; ++i)
        printf("%c", ((char *) (message->payload))[i]);
    printf("\r\n");

    if (!strncmp(message->payload, "on", 2)) {
        printf("Turning on LED\r\n");
        gpio_write(GPIO_LED, 0);
    } else if (!strncmp(message->payload, "off", 3)) {
        printf("Turning off LED\r\n");
        gpio_write(GPIO_LED, 1);
    }
}

static const char *get_my_id(void) {
    // Use MAC address for Station as unique ID
    static char my_id[13];
    static bool my_id_done = false;
    int8_t i;
    uint8_t x;
    if (my_id_done)
        return my_id;
    if (!sdk_wifi_get_macaddr(STATION_IF, (uint8_t *) my_id))
        return NULL;
    for (i = 5; i >= 0; --i) {
        x = my_id[i] & 0x0F;
        if (x > 9)
            x += 7;
        my_id[i * 2 + 1] = x + '0';
        x = my_id[i] >> 4;
        if (x > 9)
            x += 7;
        my_id[i * 2] = x + '0';
    }
    my_id[12] = '\0';
    my_id_done = true;
    return my_id;
}

static int mqtt_ssl_read(mqtt_network_t * n, unsigned char* buffer, int len,
        int timeout_ms) {
    int r = ssl_read(ssl_conn, buffer, len, timeout_ms);
    if (r <= 0
            && (r != MBEDTLS_ERR_SSL_WANT_READ
                    && r != MBEDTLS_ERR_SSL_WANT_WRITE
                    && r != MBEDTLS_ERR_SSL_TIMEOUT)) {
        printf("%s: TLS read error (%d), resetting\n\r", __func__, r);
        ssl_reset = 1;
    };
    return r;
}

static int mqtt_ssl_write(mqtt_network_t* n, unsigned char* buffer, int len,
        int timeout_ms) {
    int r = ssl_write(ssl_conn, buffer, len, timeout_ms);
    if (r <= 0
            && (r != MBEDTLS_ERR_SSL_WANT_READ
                    && r != MBEDTLS_ERR_SSL_WANT_WRITE)) {
        printf("%s: TLS write error (%d), resetting\n\r", __func__, r);
        ssl_reset = 1;
    }
    return r;
}

static void mqtt_task(void *pvParameters) {
    int ret = 0;
    struct mqtt_network network;
    mqtt_client_t client = mqtt_client_default;
    char mqtt_client_id[20];
    uint8_t mqtt_buf[100];
    uint8_t mqtt_readbuf[100];
    mqtt_packet_connect_data_t data = mqtt_packet_connect_data_initializer;

    memset(mqtt_client_id, 0, sizeof(mqtt_client_id));
    strcpy(mqtt_client_id, "ESP-");
    strcat(mqtt_client_id, get_my_id());

    ssl_conn = (SSLConnection *) malloc(sizeof(SSLConnection));
    while (1) {
        if (!wifi_alive) {
            vTaskDelay(1000 / portTICK_PERIOD_MS);
            continue;
        }

        printf("%s: started\n\r", __func__);
        ssl_reset = 0;
        ssl_init(ssl_conn);
        ssl_conn->ca_cert_str = ca_cert;
        ssl_conn->client_cert_str = client_cert;
        ssl_conn->client_key_str = client_key;

        mqtt_network_new(&network);
        network.mqttread = mqtt_ssl_read;
        network.mqttwrite = mqtt_ssl_write;

        printf("%s: connecting to MQTT server %s ... ", __func__,
                client_endpoint);
        ret = ssl_connect(ssl_conn, client_endpoint, MQTT_PORT);

        if (ret) {
            printf("error: %d\n\r", ret);
            ssl_destroy(ssl_conn);
            continue;
        }
        printf("done\n\r");
        mqtt_client_new(&client, &network, 5000, mqtt_buf, 100, mqtt_readbuf,
                100);

        data.willFlag = 0;
        data.MQTTVersion = 4;
        data.cleansession = 1;
        data.clientID.cstring = mqtt_client_id;
        data.username.cstring = NULL;
        data.password.cstring = NULL;
        data.keepAliveInterval = 1000;
        printf("Send MQTT connect ... ");
        ret = mqtt_connect(&client, &data);
        if (ret) {
            printf("error: %d\n\r", ret);
            ssl_destroy(ssl_conn);
            continue;
        }
        printf("done\r\n");
        mqtt_subscribe(&client, MQTT_SUB_TOPIC, MQTT_QOS1, topic_received);
        xQueueReset(publish_queue);

        while (wifi_alive && !ssl_reset) {
            char msg[64];
            while (xQueueReceive(publish_queue, (void *) msg, 0) == pdTRUE) {
                TickType_t task_tick = xTaskGetTickCount();
                uint32_t free_heap = xPortGetFreeHeapSize();
                uint32_t free_stack = uxTaskGetStackHighWaterMark(NULL);
                snprintf(msg, sizeof(msg), "%u: free heap %u, free stack %u",
                        task_tick, free_heap, free_stack * 4);
                printf("Publishing: %s\r\n", msg);

                mqtt_message_t message;
                message.payload = msg;
                message.payloadlen = strlen(msg);
                message.dup = 0;
                message.qos = MQTT_QOS1;
                message.retained = 0;
                ret = mqtt_publish(&client, MQTT_PUB_TOPIC, &message);
                if (ret != MQTT_SUCCESS) {
                    printf("error while publishing message: %d\n", ret);
                    break;
                }
            }

            ret = mqtt_yield(&client, 1000);
            if (ret == MQTT_DISCONNECTED)
                break;
        }
        printf("Connection dropped, request restart\n\r");
        ssl_destroy(ssl_conn);
    }
}

static void wifi_task(void *pvParameters) {
    uint8_t status = 0;
    uint8_t retries = 30;
    struct sdk_station_config config = { .ssid = WIFI_SSID, .password =
            WIFI_PASS, };

    printf("%s: Connecting to WiFi\n\r", __func__);
    sdk_wifi_set_opmode (STATION_MODE);
    sdk_wifi_station_set_config(&config);

    while (1) {
        wifi_alive = 0;

        while ((status != STATION_GOT_IP) && (retries)) {
            status = sdk_wifi_station_get_connect_status();
            printf("%s: status = %d\n\r", __func__, status);
            if (status == STATION_WRONG_PASSWORD) {
                printf("WiFi: wrong password\n\r");
                break;
            } else if (status == STATION_NO_AP_FOUND) {
                printf("WiFi: AP not found\n\r");
                break;
            } else if (status == STATION_CONNECT_FAIL) {
                printf("WiFi: connection failed\r\n");
                break;
            }
            vTaskDelay(1000 / portTICK_PERIOD_MS);
            --retries;
        }

        while ((status = sdk_wifi_station_get_connect_status())
                == STATION_GOT_IP) {
            if (wifi_alive == 0) {
                printf("WiFi: Connected\n\r");
                wifi_alive = 1;
            }
            vTaskDelay(500 / portTICK_PERIOD_MS);
        }

        wifi_alive = 0;
        printf("WiFi: disconnected\n\r");
        vTaskDelay(1000 / portTICK_PERIOD_MS);
    }
}

void user_init(void) {
    uart_set_baud(0, 115200);
    printf("SDK version: %s, free heap %u\n", sdk_system_get_sdk_version(),
            xPortGetFreeHeapSize());

    gpio_enable(GPIO_LED, GPIO_OUTPUT);
    gpio_write(GPIO_LED, 1);

    publish_queue = xQueueCreate(3, 16);
    xTaskCreate(&wifi_task, "wifi_task", 256, NULL, 2, NULL);
    xTaskCreate(&beat_task, "beat_task", 256, NULL, 2, NULL);
    xTaskCreate(&mqtt_task, "mqtt_task", 2048, NULL, 2, NULL);
}
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`/*`
			`* Derived from examples/mqtt_client/mqtt_client.c - added TLS1.2 support and some minor modifications.`
			`*/`
			`#include "espressif/esp_common.h"`
			`#include "esp/uart.h"`

			`#include <string.h>`

			`#include <FreeRTOS.h>`
			`#include <task.h>`
			`#include <queue.h>`
			`#include <ssid_config.h>`

			`#include <espressif/esp_sta.h>`
			`#include <espressif/esp_wifi.h>`

			`#include <paho_mqtt_c/MQTTESP8266.h>`
			`#include <paho_mqtt_c/MQTTClient.h>`

			`// this must be ahead of any mbedtls header files so the local mbedtls/config.h can be properly referenced`
			`#include "ssl_connection.h"`

			`#define MQTT_PUB_TOPIC "esp8266/status"`
			`#define MQTT_SUB_TOPIC "esp8266/control"`
			`#define GPIO_LED 2`
			`#define MQTT_PORT 8883`

			`/* certs, key, and endpoint */`
			`extern char ca_cert, client_endpoint, client_cert, client_key;`

			`static int wifi_alive = 0;`
			`static int ssl_reset;`
			`static SSLConnection *ssl_conn;`
FreeRTOS type updates. (#261) 2016-11-05 10:04:03 +00:00			`static QueueHandle_t publish_queue;`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00
			`static void beat_task(void *pvParameters) {`
			`char msg[16];`
			`int count = 0;`

			`while (1) {`
			`if (!wifi_alive) {`
FreeRTOS type updates. (#261) 2016-11-05 10:04:03 +00:00			`vTaskDelay(1000 / portTICK_PERIOD_MS);`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`continue;`
			`}`

			`printf("Schedule to publish\r\n");`

			`snprintf(msg, sizeof(msg), "%d", count);`
			`if (xQueueSend(publish_queue, (void *) msg, 0) == pdFALSE) {`
			`printf("Publish queue overflow\r\n");`
			`}`

FreeRTOS type updates. (#261) 2016-11-05 10:04:03 +00:00			`vTaskDelay(10000 / portTICK_PERIOD_MS);`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`}`
			`}`

paho_mqtt_c: refactor: rename symbols so they all have same prefix (#204) * paho_mqtt_c: refactor: rename symbols so they all have same prefix * Update AWS IOT example after MQTT refactoring 2016-09-15 17:52:57 +00:00			`static void topic_received(mqtt_message_data_t *md) {`
			`mqtt_message_t *message = md->message;`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`int i;`

			`printf("Received: ");`
			`for (i = 0; i < md->topic->lenstring.len; ++i)`
			`printf("%c", md->topic->lenstring.data[i]);`

			`printf(" = ");`
			`for (i = 0; i < (int) message->payloadlen; ++i)`
			`printf("%c", ((char *) (message->payload))[i]);`
			`printf("\r\n");`

			`if (!strncmp(message->payload, "on", 2)) {`
			`printf("Turning on LED\r\n");`
			`gpio_write(GPIO_LED, 0);`
			`} else if (!strncmp(message->payload, "off", 3)) {`
			`printf("Turning off LED\r\n");`
			`gpio_write(GPIO_LED, 1);`
			`}`
			`}`

			`static const char *get_my_id(void) {`
			`// Use MAC address for Station as unique ID`
			`static char my_id[13];`
			`static bool my_id_done = false;`
			`int8_t i;`
			`uint8_t x;`
			`if (my_id_done)`
			`return my_id;`
			`if (!sdk_wifi_get_macaddr(STATION_IF, (uint8_t *) my_id))`
			`return NULL;`
			`for (i = 5; i >= 0; --i) {`
			`x = my_id[i] & 0x0F;`
			`if (x > 9)`
			`x += 7;`
			`my_id[i * 2 + 1] = x + '0';`
			`x = my_id[i] >> 4;`
			`if (x > 9)`
			`x += 7;`
			`my_id[i * 2] = x + '0';`
			`}`
			`my_id[12] = '\0';`
			`my_id_done = true;`
			`return my_id;`
			`}`

paho_mqtt_c: refactor: rename symbols so they all have same prefix (#204) * paho_mqtt_c: refactor: rename symbols so they all have same prefix * Update AWS IOT example after MQTT refactoring 2016-09-15 17:52:57 +00:00			`static int mqtt_ssl_read(mqtt_network_t * n, unsigned char* buffer, int len,`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`int timeout_ms) {`
			`int r = ssl_read(ssl_conn, buffer, len, timeout_ms);`
			`if (r <= 0`
			`&& (r != MBEDTLS_ERR_SSL_WANT_READ`
			`&& r != MBEDTLS_ERR_SSL_WANT_WRITE`
			`&& r != MBEDTLS_ERR_SSL_TIMEOUT)) {`
			`printf("%s: TLS read error (%d), resetting\n\r", __func__, r);`
			`ssl_reset = 1;`
			`};`
			`return r;`
			`}`

paho_mqtt_c: refactor: rename symbols so they all have same prefix (#204) * paho_mqtt_c: refactor: rename symbols so they all have same prefix * Update AWS IOT example after MQTT refactoring 2016-09-15 17:52:57 +00:00			`static int mqtt_ssl_write(mqtt_network_t* n, unsigned char* buffer, int len,`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`int timeout_ms) {`
			`int r = ssl_write(ssl_conn, buffer, len, timeout_ms);`
			`if (r <= 0`
			`&& (r != MBEDTLS_ERR_SSL_WANT_READ`
			`&& r != MBEDTLS_ERR_SSL_WANT_WRITE)) {`
			`printf("%s: TLS write error (%d), resetting\n\r", __func__, r);`
			`ssl_reset = 1;`
			`}`
			`return r;`
			`}`

			`static void mqtt_task(void *pvParameters) {`
			`int ret = 0;`
paho_mqtt_c: refactor: rename symbols so they all have same prefix (#204) * paho_mqtt_c: refactor: rename symbols so they all have same prefix * Update AWS IOT example after MQTT refactoring 2016-09-15 17:52:57 +00:00			`struct mqtt_network network;`
			`mqtt_client_t client = mqtt_client_default;`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`char mqtt_client_id[20];`
			`uint8_t mqtt_buf[100];`
			`uint8_t mqtt_readbuf[100];`
paho_mqtt_c: refactor: rename symbols so they all have same prefix (#204) * paho_mqtt_c: refactor: rename symbols so they all have same prefix * Update AWS IOT example after MQTT refactoring 2016-09-15 17:52:57 +00:00			`mqtt_packet_connect_data_t data = mqtt_packet_connect_data_initializer;`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00
			`memset(mqtt_client_id, 0, sizeof(mqtt_client_id));`
			`strcpy(mqtt_client_id, "ESP-");`
			`strcat(mqtt_client_id, get_my_id());`

			`ssl_conn = (SSLConnection *) malloc(sizeof(SSLConnection));`
			`while (1) {`
			`if (!wifi_alive) {`
FreeRTOS type updates. (#261) 2016-11-05 10:04:03 +00:00			`vTaskDelay(1000 / portTICK_PERIOD_MS);`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`continue;`
			`}`

			`printf("%s: started\n\r", __func__);`
			`ssl_reset = 0;`
			`ssl_init(ssl_conn);`
			`ssl_conn->ca_cert_str = ca_cert;`
			`ssl_conn->client_cert_str = client_cert;`
			`ssl_conn->client_key_str = client_key;`

paho_mqtt_c: refactor: rename symbols so they all have same prefix (#204) * paho_mqtt_c: refactor: rename symbols so they all have same prefix * Update AWS IOT example after MQTT refactoring 2016-09-15 17:52:57 +00:00			`mqtt_network_new(&network);`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`network.mqttread = mqtt_ssl_read;`
			`network.mqttwrite = mqtt_ssl_write;`

			`printf("%s: connecting to MQTT server %s ... ", __func__,`
			`client_endpoint);`
			`ret = ssl_connect(ssl_conn, client_endpoint, MQTT_PORT);`

			`if (ret) {`
			`printf("error: %d\n\r", ret);`
			`ssl_destroy(ssl_conn);`
			`continue;`
			`}`
			`printf("done\n\r");`
paho_mqtt_c: refactor: rename symbols so they all have same prefix (#204) * paho_mqtt_c: refactor: rename symbols so they all have same prefix * Update AWS IOT example after MQTT refactoring 2016-09-15 17:52:57 +00:00			`mqtt_client_new(&client, &network, 5000, mqtt_buf, 100, mqtt_readbuf,`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`100);`

			`data.willFlag = 0;`
			`data.MQTTVersion = 4;`
			`data.cleansession = 1;`
			`data.clientID.cstring = mqtt_client_id;`
			`data.username.cstring = NULL;`
			`data.password.cstring = NULL;`
			`data.keepAliveInterval = 1000;`
			`printf("Send MQTT connect ... ");`
paho_mqtt_c: refactor: rename symbols so they all have same prefix (#204) * paho_mqtt_c: refactor: rename symbols so they all have same prefix * Update AWS IOT example after MQTT refactoring 2016-09-15 17:52:57 +00:00			`ret = mqtt_connect(&client, &data);`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`if (ret) {`
			`printf("error: %d\n\r", ret);`
			`ssl_destroy(ssl_conn);`
			`continue;`
			`}`
			`printf("done\r\n");`
paho_mqtt_c: refactor: rename symbols so they all have same prefix (#204) * paho_mqtt_c: refactor: rename symbols so they all have same prefix * Update AWS IOT example after MQTT refactoring 2016-09-15 17:52:57 +00:00			`mqtt_subscribe(&client, MQTT_SUB_TOPIC, MQTT_QOS1, topic_received);`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`xQueueReset(publish_queue);`

			`while (wifi_alive && !ssl_reset) {`
			`char msg[64];`
			`while (xQueueReceive(publish_queue, (void *) msg, 0) == pdTRUE) {`
FreeRTOS type updates. (#261) 2016-11-05 10:04:03 +00:00			`TickType_t task_tick = xTaskGetTickCount();`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`uint32_t free_heap = xPortGetFreeHeapSize();`
			`uint32_t free_stack = uxTaskGetStackHighWaterMark(NULL);`
			`snprintf(msg, sizeof(msg), "%u: free heap %u, free stack %u",`
			`task_tick, free_heap, free_stack * 4);`
			`printf("Publishing: %s\r\n", msg);`

paho_mqtt_c: refactor: rename symbols so they all have same prefix (#204) * paho_mqtt_c: refactor: rename symbols so they all have same prefix * Update AWS IOT example after MQTT refactoring 2016-09-15 17:52:57 +00:00			`mqtt_message_t message;`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`message.payload = msg;`
			`message.payloadlen = strlen(msg);`
			`message.dup = 0;`
paho_mqtt_c: refactor: rename symbols so they all have same prefix (#204) * paho_mqtt_c: refactor: rename symbols so they all have same prefix * Update AWS IOT example after MQTT refactoring 2016-09-15 17:52:57 +00:00			`message.qos = MQTT_QOS1;`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`message.retained = 0;`
paho_mqtt_c: refactor: rename symbols so they all have same prefix (#204) * paho_mqtt_c: refactor: rename symbols so they all have same prefix * Update AWS IOT example after MQTT refactoring 2016-09-15 17:52:57 +00:00			`ret = mqtt_publish(&client, MQTT_PUB_TOPIC, &message);`
			`if (ret != MQTT_SUCCESS) {`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`printf("error while publishing message: %d\n", ret);`
			`break;`
			`}`
			`}`

paho_mqtt_c: refactor: rename symbols so they all have same prefix (#204) * paho_mqtt_c: refactor: rename symbols so they all have same prefix * Update AWS IOT example after MQTT refactoring 2016-09-15 17:52:57 +00:00			`ret = mqtt_yield(&client, 1000);`
			`if (ret == MQTT_DISCONNECTED)`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`break;`
			`}`
			`printf("Connection dropped, request restart\n\r");`
			`ssl_destroy(ssl_conn);`
			`}`
			`}`

			`static void wifi_task(void *pvParameters) {`
			`uint8_t status = 0;`
			`uint8_t retries = 30;`
			`struct sdk_station_config config = { .ssid = WIFI_SSID, .password =`
			`WIFI_PASS, };`

			`printf("%s: Connecting to WiFi\n\r", __func__);`
			`sdk_wifi_set_opmode (STATION_MODE);`
			`sdk_wifi_station_set_config(&config);`

			`while (1) {`
			`wifi_alive = 0;`

			`while ((status != STATION_GOT_IP) && (retries)) {`
			`status = sdk_wifi_station_get_connect_status();`
			`printf("%s: status = %d\n\r", __func__, status);`
			`if (status == STATION_WRONG_PASSWORD) {`
			`printf("WiFi: wrong password\n\r");`
			`break;`
			`} else if (status == STATION_NO_AP_FOUND) {`
			`printf("WiFi: AP not found\n\r");`
			`break;`
			`} else if (status == STATION_CONNECT_FAIL) {`
			`printf("WiFi: connection failed\r\n");`
			`break;`
			`}`
FreeRTOS type updates. (#261) 2016-11-05 10:04:03 +00:00			`vTaskDelay(1000 / portTICK_PERIOD_MS);`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`--retries;`
			`}`

			`while ((status = sdk_wifi_station_get_connect_status())`
			`== STATION_GOT_IP) {`
			`if (wifi_alive == 0) {`
			`printf("WiFi: Connected\n\r");`
			`wifi_alive = 1;`
			`}`
FreeRTOS type updates. (#261) 2016-11-05 10:04:03 +00:00			`vTaskDelay(500 / portTICK_PERIOD_MS);`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`}`

			`wifi_alive = 0;`
			`printf("WiFi: disconnected\n\r");`
FreeRTOS type updates. (#261) 2016-11-05 10:04:03 +00:00			`vTaskDelay(1000 / portTICK_PERIOD_MS);`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`}`
			`}`

			`void user_init(void) {`
			`uart_set_baud(0, 115200);`
			`printf("SDK version: %s, free heap %u\n", sdk_system_get_sdk_version(),`
			`xPortGetFreeHeapSize());`

			`gpio_enable(GPIO_LED, GPIO_OUTPUT);`
			`gpio_write(GPIO_LED, 1);`

			`publish_queue = xQueueCreate(3, 16);`
FreeRTOS v9.0.0 upgrade 2016-10-21 09:40:36 +00:00			`xTaskCreate(&wifi_task, "wifi_task", 256, NULL, 2, NULL);`
			`xTaskCreate(&beat_task, "beat_task", 256, NULL, 2, NULL);`
			`xTaskCreate(&mqtt_task, "mqtt_task", 2048, NULL, 2, NULL);`
Added a MQTT pub/sub example of using AWS IoT (#173) * Added a MQTT pub/sub example of using AWS IoT (via ECC based TLS1.2 connection). * Fixed a buffer overflow issue when receiving large MQTT packet. * Reset TLS connection on read/write errors. 2016-08-29 17:55:32 +00:00			`}`