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自身で用意したWCFサービスへHTTP通信でGETメソッド実行後、レスポンスを待つ際に
下記エラーが度々発生します(エラーが発生しない場合もあり)。

<エラーメッセージ>

ERROR:LTEClient:208 recv() error : 115

もしくは

ERROR:LTEClient:256 recv() error : 115

エラーの原因は下記のものになるようですが、どのように対処すればよいのか不明です。

#define ENETDOWN 115        /* Network interface is not configured */

お手数をおかけしますが、ご教示いただけますでしょうか。

<開発環境>

  • Arduino
  • LTE拡張ボード
  • 電源はメインボートとLTE拡張ボードより

<試してみたこと>

  • GETだけでなくPOSTでも発生。
  • 各処理にsleep処理を入れても発生。
  • メインコアのメモリを1536KBにしても発生。
  • client.flush()を使用してみたが変化なし。
  • メインLOOPの間隔を1分~60分に変更しても同様。

<ソースコード>
Spresense Arduino チュートリアルのサンプルを参考にテストプログラムを作成しています。
ほぼサンプルの切り貼りです。
deepSleepでloop処理しているがGET後のresponseBodyでエラーが度々発生。

////////////////////////////////
// Http Get TEST
////////////////////////////////

// libraries
#include <ArduinoHttpClient.h>
#include <LowPower.h>
#include <RTC.h>
#include <LTE.h>
#include <stdio.h>
#include <Watchdog.h>

// APN data
#define LTE_APN       "xxxxxxx.yy"  // replace your APN
#define LTE_USER_NAME "user"        // replace with your username
#define LTE_PASSWORD  "pass"        // replace with your password

// URL, path & port
char server[] = "xxxxx.com";
char getPath[] = "/test.svc/get/";
int port = 80; // http port

// initialize the library instance
LTE lteAccess;
LTEModem lteModem;
LTEClient lteClient;
HttpClient client = HttpClient(lteClient, server, port);
String IMEI = "";

// define data
#define BAUDRATE                (115200)
#define WAKEUP_MINUTE           (1)


// boot
const char* boot_cause_strings[] = {
  "Power On Reset with Power Supplied",
  "System WDT expired or Self Reboot",
  "Chip WDT expired",
  "WKUPL signal detected in deep sleep",
  "WKUPS signal detected in deep sleep",
  "RTC Alarm expired in deep sleep",
  "USB Connected in deep sleep",
  "Others in deep sleep",
  "SCU Interrupt detected in cold sleep",
  "RTC Alarm0 expired in cold sleep",
  "RTC Alarm1 expired in cold sleep",
  "RTC Alarm2 expired in cold sleep",
  "RTC Alarm Error occurred in cold sleep",
  "Unknown(13)",
  "Unknown(14)",
  "Unknown(15)",
  "GPIO detected in cold sleep",
  "GPIO detected in cold sleep",
  "GPIO detected in cold sleep",
  "GPIO detected in cold sleep",
  "GPIO detected in cold sleep",
  "GPIO detected in cold sleep",
  "GPIO detected in cold sleep",
  "GPIO detected in cold sleep",
  "GPIO detected in cold sleep",
  "GPIO detected in cold sleep",
  "GPIO detected in cold sleep",
  "GPIO detected in cold sleep",
  "SEN_INT signal detected in cold sleep",
  "PMIC signal detected in cold sleep",
  "USB Disconnected in cold sleep",
  "USB Connected in cold sleep",
  "Power On Reset",
};

void printBootCause(bootcause_e bc)
{
  Serial.println("--------------------------------------------------");
  Serial.print("Boot Cause: ");
  Serial.print(boot_cause_strings[bc]);
  if ((COLD_GPIO_IRQ36 <= bc) && (bc <= COLD_GPIO_IRQ47)) {
    // Wakeup by GPIO
    int pin = LowPower.getWakeupPin(bc);
    Serial.print(" <- pin ");
    Serial.print(pin);
  }
  Serial.println();
  Serial.println("--------------------------------------------------");
}

void printClock(RtcTime &rtc)
{ 
  printf("%04d/%02d/%02d %02d:%02d:%02d\n",
         rtc.year(), rtc.month(), rtc.day(),
         rtc.hour(), rtc.minute(), rtc.second());
}

void Lte_Setting()
{
  // If your SIM has PIN, pass it as a parameter of begin() in quotes
  while (true) {
    if (lteAccess.begin() == LTE_SEARCHING) {
      if (lteAccess.attach(LTE_APN, LTE_USER_NAME, LTE_PASSWORD) == LTE_READY) {
        Serial.println("attach succeeded.");
        break;
      }
      Serial.println("An error occurred, shutdown and try again.");
      lteAccess.shutdown();
      sleep(1);
    }
  }

  // IMEI of the modem
  IMEI = lteModem.getIMEI();
  Serial.println("IMEI: " + IMEI);

  // Set local time (not UTC) obtained from the network to RTC.
  RTC.begin();
  unsigned long currentTime;
  while(0 == (currentTime = lteAccess.getTime())) {
    sleep(1);
  }
  RtcTime rtc(currentTime);
  printClock(rtc);
  RTC.setTime(rtc);
}

///////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////
void setup()
{
  // initialize serial communications and wait for port to open:
  Serial.begin(BAUDRATE);
  while (!Serial) {
      ; // wait for serial port to connect. Needed for native USB port only
  }

  // Initialize LowPower library
  LowPower.begin();
  // Get the boot cause
  bootcause_e bc = LowPower.bootCause();
  // Print the boot cause
  printBootCause(bc);
  // Camera does not work in Low Power mode
  LowPower.end();

  // Initialize a watchdog
  Watchdog.begin();
  Watchdog.start(40000);

  // LTE Setting
  Lte_Setting();
  Watchdog.kick();

}

// Main Loop
void loop()
{
  int interval = WAKEUP_MINUTE;
  
  sleep(1);

  // HTTP Start
  int statusCode;
  String response;
  int ret;

  // HTTP GET method(Master Get)
  Serial.println("making GET request");
  Serial.println(getPath);
  ret = client.get(getPath);
  Serial.print("ret: ");
  Serial.println(ret);
//  client.flush();
  
  sleep(3);

  // read the status code and body of the response
  statusCode = client.responseStatusCode();
  Serial.print("Status code: ");
  Serial.println(statusCode);
  response = client.responseBody();
  Serial.print("Response: ");
  Serial.println(response);

  // Success
  if (statusCode == 200)
  {
    //
  }
  Watchdog.kick();
  
  sleep(3);
  // HTTP End


  // Cleaning
  while (true) {
    if (lteAccess.detach() == LTE_SEARCHING) {
      Serial.println("dettach succeeded.");
      break;
    }
  }
  sleep(1);

  // Stop a watchdog
  Watchdog.stop();

  // Initialize LowPower library
  LowPower.begin();
  
  // Low Power Mode(Deep Sleep)
  // Go to deep sleep during about XX seconds
  Serial.println("Go to deep sleep...");
  LowPower.deepSleep(interval * 60);
}

<エラー発生時のログ>

13:58:06.213 -> ret: 0
13:58:13.668 -> Status code: 200
13:58:20.939 -> ERROR:LTEClient:256 recv() error : 115

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