Exemplo n.º 1
0
int main(int argc, char **argv)
{
    if (argc != 2) {
       fprintf(stderr,"usage: %s <hostname> \n", argv[0]);
       exit(0);
    }	
	hostname = argv[1];
	
	network_setup();
}
Exemplo n.º 2
0
void setup() {
  NVIC_PriorityGroupConfig(NVIC_PriorityGroup_2);
  RCC_APB2PeriphClockCmd(RCC_APB2Periph_AFIO, ENABLE);
  GPIO_PinRemapConfig(GPIO_Remap_SWJ_JTAGDisable, ENABLE);
  WWDG_DeInit();
  time_setup();

  debug_setup();
  rtc_setup();
  spi_setup();
  sdcard_setupGpio();
  cc3000_setupGpio();
  button_setup();

  if (!sdcard_setup()) {
    printf("Failed to setup SDCard\n");
  } else {
    if (!sdcard_fat_setup()) {
      printf("Failed to setup SDCard Fat\n");
    }
  }
  
  if (config_read()) {
    printf("read config success\n");
  } else {
    printf("read config FAILED\n");
    while (1);
  }

  network_setup();

  uint32_t ntpTime = ntp_getTime();
  printf("ntp time %lu\n", ntpTime);
  if (ntpTime > 0) {
    rtc_setTime(ntpTime);
  }
}
Exemplo n.º 3
0
static void publisher(void)
{
	int i, rc;

	/* Set everything to 0 and later just assign the required fields. */
	memset(&client_ctx, 0x00, sizeof(client_ctx));

	/* connect, disconnect and malformed may be set to NULL */
	client_ctx.mqtt_ctx.connect = connect_cb;

	client_ctx.mqtt_ctx.disconnect = disconnect_cb;
	client_ctx.mqtt_ctx.malformed = malformed_cb;

	client_ctx.mqtt_ctx.net_init_timeout = APP_NET_INIT_TIMEOUT;
	client_ctx.mqtt_ctx.net_timeout = APP_TX_RX_TIMEOUT;

	client_ctx.mqtt_ctx.peer_addr_str = SERVER_ADDR;
	client_ctx.mqtt_ctx.peer_port = SERVER_PORT;

#if defined(CONFIG_MQTT_LIB_TLS)
	/** TLS setup */
	client_ctx.mqtt_ctx.request_buf = tls_request_buf;
	client_ctx.mqtt_ctx.request_buf_len = TLS_REQUEST_BUF_SIZE;
	client_ctx.mqtt_ctx.personalization_data = TLS_PRIVATE_DATA;
	client_ctx.mqtt_ctx.personalization_data_len = strlen(TLS_PRIVATE_DATA);
	client_ctx.mqtt_ctx.cert_host = TLS_SNI_HOSTNAME;
	client_ctx.mqtt_ctx.tls_mem_pool = &tls_mem_pool;
	client_ctx.mqtt_ctx.tls_stack = tls_stack;
	client_ctx.mqtt_ctx.tls_stack_size = K_THREAD_STACK_SIZEOF(tls_stack);
	client_ctx.mqtt_ctx.cert_cb = setup_cert;
	client_ctx.mqtt_ctx.entropy_src_cb = NULL;
#endif

	/* Publisher apps TX the MQTT PUBLISH msg */
	client_ctx.mqtt_ctx.publish_tx = publish_cb;

	/* The connect message will be sent to the MQTT server (broker).
	 * If clean_session here is 0, the mqtt_ctx clean_session variable
	 * will be set to 0 also. Please don't do that, set always to 1.
	 * Clean session = 0 is not yet supported.
	 */
	client_ctx.connect_msg.client_id = MQTT_CLIENTID;
	client_ctx.connect_msg.client_id_len = strlen(MQTT_CLIENTID);
	client_ctx.connect_msg.clean_session = 1;

	client_ctx.connect_data = "CONNECTED";
	client_ctx.disconnect_data = "DISCONNECTED";
	client_ctx.publish_data = "PUBLISH";

	rc = network_setup();
	PRINT_RESULT("network_setup", rc);
	if (rc < 0) {
		return;
	}

	rc = mqtt_init(&client_ctx.mqtt_ctx, MQTT_APP_PUBLISHER);
	PRINT_RESULT("mqtt_init", rc);
	if (rc != 0) {
		return;
	}

	for (i = 0; i < CONN_TRIES; i++) {
		rc = mqtt_connect(&client_ctx.mqtt_ctx);
		PRINT_RESULT("mqtt_connect", rc);
		if (!rc) {
			goto connected;
		}
	}

	goto exit_app;

connected:

	rc = try_to_connect(&client_ctx);
	PRINT_RESULT("try_to_connect", rc);
	if (rc != 0) {
		goto exit_app;
	}

	i = 0;
	while (i++ < APP_MAX_ITERATIONS) {
		rc = mqtt_tx_pingreq(&client_ctx.mqtt_ctx);
		k_sleep(APP_SLEEP_MSECS);
		PRINT_RESULT("mqtt_tx_pingreq", rc);

		prepare_mqtt_publish_msg(&client_ctx.pub_msg, MQTT_QoS0);
		rc = mqtt_tx_publish(&client_ctx.mqtt_ctx, &client_ctx.pub_msg);
		k_sleep(APP_SLEEP_MSECS);
		PRINT_RESULT("mqtt_tx_publish", rc);

		prepare_mqtt_publish_msg(&client_ctx.pub_msg, MQTT_QoS1);
		rc = mqtt_tx_publish(&client_ctx.mqtt_ctx, &client_ctx.pub_msg);
		k_sleep(APP_SLEEP_MSECS);
		PRINT_RESULT("mqtt_tx_publish", rc);

		prepare_mqtt_publish_msg(&client_ctx.pub_msg, MQTT_QoS2);
		rc = mqtt_tx_publish(&client_ctx.mqtt_ctx, &client_ctx.pub_msg);
		k_sleep(APP_SLEEP_MSECS);
		PRINT_RESULT("mqtt_tx_publish", rc);
	}

	rc = mqtt_tx_disconnect(&client_ctx.mqtt_ctx);
	PRINT_RESULT("mqtt_tx_disconnect", rc);

exit_app:

	mqtt_close(&client_ctx.mqtt_ctx);

	printk("\nBye!\n");
}
void dc_electronic_load_setup() {
  setCurrentMilliamps = 0;
  readCurrentMilliamps = 0;
  readMilliVolts = 0;
  setRateIndex = 0;
  readCurrentMilliampsDisplay = DISPLAY_MILLI;
  gfxState = GFX_STATE_MEASURE;

  dma_ring_buffer_init(&g_debugUsartDmaInputRingBuffer, DEBUG_USART_RX_DMA_CH, g_debugUsartRxBuffer, DEBUG_USART_RX_BUFFER_SIZE);

  debug_setup();
  debug_write_line("?BEGIN setup");

  process_init();
  process_start(&etimer_process, NULL);

  process_start(&debug_process, NULL);
#ifdef DISP6800_ENABLE
  process_start(&gfx_update_process, NULL);
  process_poll(&gfx_update_process);
#endif

  spi_setup();

#ifdef DISP6800_ENABLE
  disp6800_setup();
  gfx_setup();
#endif

#ifdef ENCODER_ENABLE
  encoder_setup();
#endif

#ifdef FLASH_ENABLE
  flashsst25_setup();
#endif

#ifdef MAC_ENABLE
  mac25aa02e48_setup();
  mac25aa02e48_read_eui48();
#endif

#ifdef ADC_ENABLE
  adc_setup();
#endif

#ifdef DAC_ENABLE
  dac_setup();
  dac_set(0);
#endif

#ifdef NETWORK_ENABLE
  network_setup(EUI48);
#endif

#ifdef FAN_ENABLE
  fan_setup();
#endif

#ifdef BUTTONS_ENABLE
  buttons_setup();
#endif

  time_setup();
  recorder_setup();

  debug_write_line("?END setup");
}