FiPy crashing using WiFi



  • I have FiPy connected to wifi and publishing data to my mqtt broker every second. The system will crash at random times. I have attached the last 5 crash dumps. The second one happened just under an hour after the first and the third happened about 1.5 hours after the second. It started to have a fourth crash about an hour after the third but the system just stopped and did not write out any crash dump. Then my FiPy just sat there not doing anything for the rest of the weekend. The last 2 files happened while i was watching the unit this morning and they last one happened just 3 min after fourth.

    Here is my main code that handles connecting to the internet and publishing data to my mqtt broker.

    import pycom
    import utime
    import ujson
    import gc
    from debug import log
    import config
    import machine
    import _thread
    from microWebCli import MicroWebCli
    from constants import const
    from machine import Timer
    from rtc import rtc
    # from lora import NanoGateway
    from wifi import WiFi
    from lte import lte
    from schedule import schedule
    from mqtt_old import MQTTClient
    from OTA import WiFiOTA, lteOTA
    
    gc.enable()
    gc.threshold(1000000)
    
    # Initialize LED
    pycom.heartbeat(False)
    pycom.rgbled(0x0000ff)
    
    def sub_cb(topic, msg):
        log.debug('{}', topic)
        log.debug('{}', msg)
        sub = topic.split(b'/')
        json_msg = ujson.loads(msg)
        if b'commands' in sub:
            id = int(sub[len(sub)-1])
            # id = json_msg["commandDefinitionId"]
            if id == 0:
                command = json_msg["command"]
                submit_cur = json_msg["submitted"]
                submit_last = config.read('submitted')
                log.debug('{}***{}',submit_cur, submit_last)
                if submit_cur != submit_last:
                    log.debug('Command: {}', command)
                    config.write('submitted', submit_cur)
                    cmdObj = ujson.loads(command)
                    if cmdObj.get('cmd') is not None:
                        cmd = cmdObj["cmd"].lower()
                        if submit_last:
                            if 'schedule_start' in cmd:
                                schedule.start()
                            elif 'manual_zone' in cmd:
                                zone = cmdObj["zone"]
                                if "state" in cmdObj:
                                    schedule.relay(zone,cmdObj["state"])
                                elif "duration" in cmdObj:
                                    schedule.zone_on(zone,cmdObj["duration"])
                                else:
                                    log.warning('Unkown manual zone command: {}', cmdObj)
                            elif 'update' in cmd:
                                config.update = True
                            else:
                                log.warning('Uknown command: {}', cmd)
                        else:
                            log.warning('Ignoring \"{}\" because last submitted time is empty', cmd)
                    else:
                        log.warning('Unknown command object: {}', cmdObj)
        elif b'attributes' in sub:
            # attr_name = json_msg["attributeName"].lower()
            attr_name = sub[len(sub)-1]
            attr_value = json_msg["attributeValue"]
            if 'schedule' in attr_name:
                # config.write('schedule', ujson.loads(attr_value))
                pass
            elif 'starttime' in attr_name:
                # config.write('start_time', ujson.loads(attr_value))
                pass
            elif 'auto' in attr_name:
                config.write('auto', ujson.loads(attr_value)["Auto"])
            elif 'timezone' in attr_name:
                tz = ujson.loads(attr_value)
                config.write('timezone', tz)
                if not rtc.synced():
                    rtc.setTimezone(tz['offset'])
                    rtc.setDST(tz['dst'])
                    rtc.update()
                else:
                    rtc.updateTimezone(timezone=tz['offset'], dst=tz['dst'])
            elif 'sprinkler-programs' in attr_name:
                config.write('programs', ujson.loads(attr_value))
            elif 'zone-config' in attr_name:
                config.write('zones', ujson.loads(attr_value))
            elif 'assigned-programs' in attr_name:
                config.write('active', ujson.loads(attr_value))
            else:
                log.warning('Undefined attribute {}: {}', attr_name, attr_value)
        else:
            log.warning('Unknown message received: {}', msg)
    
    # def _publishTimeout(topic, msg):
    #     global _pub_task
    #     try:
    #         mqtt_client.publish(topic, msg)
    #     finally:
    #         _pub_task = None
    #
    # global _pub_task = None
    
    def mqtt_loop(timeout):
        # global _pub_task
        while True:
            utime.sleep_ms(1000)
            packets = config.flush_msg()
            if not config.update:
                if config.mqtt_connected:
                    i = 0
                    try:
                        for packet in packets:
                            log.debug('{}', packet)
                            mqtt_client.publish(const.MQTT_DATA, packet)
                            # task = None
                            # start = utime.ticks_ms()
                            # while utime.ticks_diff(utime.ticks_ms(), start) < timeout:
                            #     if _pub_task is None and task is None:
                            #         task = _thread.start_new_thread(_publishTimeout, (const.MQTT_DATA, packet,))
                            #         _pub_task = task
                            #     elif task is not None:
                            #         if _pub_task != task:
                            #             return
                            #     utime.sleep_ms(20)
                            # if task is not None:
                            #     task.exit()
                            i += 1
                        mqtt_client.check_msg()
                    except Exception as ex:
                        log.error('MQTT error: {}', ex)
                        mqtt_close()
                    log.info('MQTT published packets: {}', i)
            else:
                if config.mqtt_connected:
                    mqtt_disconnect()
    
    def connect():
        for net in const.NETWORK_PREFERENCES:
            log.info('Attempting to connect to network: {}', net)
            if net == 'lte' or net == 'nbiot':
                if lte.connect():
                    # rtc.setTimezone(lte.timezone())
                    config.network_type = const.NETWORK_TYPE_LTE
                    break
            elif net == 'wifi':
                if wifi.connect():
                    config.network_type = const.NETWORK_TYPE_WIFI
                    break
    
        utime.sleep(1)
        if isconnected():
            result = None
            log.debug('{}', const.ASSET_URL)
            auth = MicroWebCli.AuthBasic(const.USERNAME, const.PASSWORD)
            try:
                result = MicroWebCli.JSONRequest(const.ASSET_URL, o='POST', auth=auth)
            except Exception as e:
                log.error('Asset request error: {}', e)
            if result is not None:
                config.write('asset_id', result['assetId'])
                config.write('lon', result['longitude'])
                config.write('lat', result['latitude'])
            const.ASSET_ID = config.read('asset_id')
            log.info('Asset ID: {}', const.ASSET_ID)
            if const.ASSET_ID is not None:
                const.MQTT_TOPIC = '%s/assets/%d' % (const.MQTT_SERVER, const.ASSET_ID)
            return True
        else:
            log.warning('Failed to connect')
    
        return False
    
    def disconnect(keep_wifi=False):
        if (config.network_type == const.NETWORK_TYPE_WIFI and not keep_wifi):
            log.info('Connected over WiFi... disconnecting')
            wifi.disconnect()
    
        if (config.network_type == const.NETWORK_TYPE_LTE):
            log.info('Connected over LTE... disconnecting')
            lte.disconnect()
    
        config.network_type = None
    
    def network_reconnect():
        try:
            disconnect()
            utime.sleep(1)
            return connect()
        except Exception as ex:
            log.error('Reconnect error: {}', ex)
            return False
    
    def isconnected():
        return wifi.isconnected() or lte.isconnected()
    
    def mqtt_close():
        mqtt_client.close()
        config.mqtt_connected = False
    
    def mqtt_disconnect():
        mqtt_client.disconnect()
        config.mqtt_connected = False
    
    def temp_loop():
        data = {}
        while True:
            log.info('Current time: {}', utime.localtime())
            temp = machine.temperature()
            log.info('CPU temp: {} degF', temp)
            data['CPU Temperature'] = temp
            data['Current Time'] = utime.time()
            config.enqueue_msg(ujson.dumps(data))
            utime.sleep(1)
    
    # configure the MQTT client
    mqtt_client = MQTTClient(const.MODEL, const.MQTT_SERVER, port=const.MQTT_PORT)
    mqtt_client.set_callback(sub_cb)
    
    schedule = schedule()
    
    wifi = WiFi(const.WIFI_EXT_ANT)
    lte = lte(True, reconnect=network_reconnect)
    rtc = rtc()
    
    tz = config.read('timezone')
    if tz is not None:
        rtc.setTimezone(tz['offset'])
        rtc.setDST(tz['dst'])
    log.info('Timezone: {}', tz)
    
    try:
        lora = NanoGateway(const.LORA_FREQ)
    except:
        pass
    
    publish_timeout = 5000
    _thread.stack_size(10240)
    _thread.start_new_thread(mqtt_loop, (publish_timeout,))
    _thread.stack_size(8192)
    _thread.start_new_thread(temp_loop, ())
    
    wait = 1
    while True:
        reconnect = False
        if not config.update:
            if isconnected():
                if not rtc.synced():
                    rtc.update()
                if not config.mqtt_connected:
                    try:
                        if not mqtt_client.connect():
                            log.info('MQTT connected')
                            for topic in const.MQTT_SUB:
                                mqtt_client.subscribe(const.MQTT_TOPIC.lower() + "/" + topic)
                            config.mqtt_connected = True
                        else:
                            log.info('MQTT not connected')
                            config.mqtt_connected = False
                    except Exception as ex:
                        log.error("MQTT connect error: {}", ex)
                        reconnect = True
                        # if ex.args[0] is 202: #EAI_FAIL
            else:
                reconnect = True
            if reconnect:
                mqtt_close()
                if network_reconnect():
                    wait = 1
                else:
                    if wait < 30:
                        wait += 1
        else:
            while config.mqtt_connected:
                utime.sleep_ms(10)
            # ota = WiFiOTA(const.OTA_WIFI_SSID, const.OTA_WIFI_PW, const.OTA_SERVER, const.OTA_PORT)
            ota = lteOTA(const.LTE_BAND, const.LTE_CID, const.LTE_APN, const.OTA_SERVER, const.OTA_PORT)
            if ota.connect():
                result = ota.update()
                if result is 0:
                    machine.reset()
                else:
                    config.update = False
        msg_size = config.size_msg()
        log.debug('Queue size: {}', msg_size)
        if msg_size >= const.MAX_QUEUE_SIZE:
            log.warning('MQTT queue is full, restarting connection')
            mqtt_close()
        gc.collect()
        log.info('Free memory: {}', gc.mem_free())
        utime.sleep(wait)
    
    

    2020-10-16T17-24-8_core_dump.py 2020-10-16T18-20-21_core_dump.py 2020-10-16T20-2-4_core_dump.py
    2020-10-16T10-20-14_core_dump.py 2020-10-16T10-23-34_core_dump.py



  • @Xykon @Gijs, I have put those commands into my code and my system still crashes. Here is the last crash report it did.

    ===============================================================
    ==================== ESP32 CORE DUMP START ====================
    
    ================== CURRENT THREAD REGISTERS ===================
    pc             0x40163f84       0x40163f84 <KISS_Find_channel_direct+768>
    lbeg           0x400933c0       1074344896
    lend           0x400933ee       1074344942
    lcount         0xffffffff       4294967295
    sar            0x10     16
    ps             0x60d20  396576
    threadptr      <unavailable>
    br             <unavailable>
    scompare1      <unavailable>
    acclo          <unavailable>
    acchi          <unavailable>
    m0             <unavailable>
    m1             <unavailable>
    m2             <unavailable>
    m3             <unavailable>
    expstate       <unavailable>
    f64r_lo        <unavailable>
    f64r_hi        <unavailable>
    f64s           <unavailable>
    fcr            <unavailable>
    fsr            <unavailable>
    a0             0x4018a15c       1075355996
    a1             0x3ffbaee0       1073458912
    a2             0xb      11
    a3             0x3f9400c0       1066664128
    a4             0x0      0
    a5             0x3fbc23c0       1069294528
    a6             0xfffffff4       -12
    a7             0x14     20
    a8             0x8018402e       -2145894354
    a9             0x3ffbaec0       1073458880
    a10            0x3f9400c0       1066664128
    a11            0x0      0
    a12            0x0      0
    a13            0x0      0
    a14            0x3ffeef64       1073672036
    a15            0x4      4
    
    ==================== CURRENT THREAD STACK =====================
    #0  0x40163f84 in KISS_Find_channel_direct ()
    #1  0x4018a15c in sys_check_timeouts () at /Users/ehlers/pycom/pycom-esp-idf/components/lwip/lwip/src/core/timeouts.c:354
    #2  sys_timeouts_mbox_fetch (mbox=0x3ffd1980 <mbox>, msg=0x3ffbaf30) at /Users/ehlers/pycom/pycom-esp-idf/components/lwip/lwip/src/core/timeouts.c:433
    #3  0x40182aab in tcpip_thread (arg=<optimized out>) at /Users/ehlers/pycom/pycom-esp-idf/components/lwip/lwip/src/api/tcpip.c:109
    
    ======================== THREADS INFO =========================
      Id   Target Id         Frame
    * 1    <main task>       0x40163f84 in KISS_Find_channel_direct ()
      2    process 1         err_to_errno (err=0 '\\000') at /Users/ehlers/pycom/pycom-esp-idf/components/lwip/lwip/src/api/err.c:71
      3    process 2         0x402209a6 in esp_pm_impl_waiti () at /Users/ehlers/pycom/pycom-esp-idf/components/esp32/pm_esp32.c:492
      4    process 3         0x402209a6 in esp_pm_impl_waiti () at /Users/ehlers/pycom/pycom-esp-idf/components/esp32/pm_esp32.c:492
      5    process 4         0x40096b4a in vTaskDelay (xTicksToDelay=<optimized out>) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/tasks.c:1484
      6    process 5         0x40096b4a in vTaskDelay (xTicksToDelay=<optimized out>) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/tasks.c:1484
      7    process 6         0x40096b4a in vTaskDelay (xTicksToDelay=<optimized out>) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/tasks.c:1484
      8    process 7         0x40096b4a in vTaskDelay (xTicksToDelay=<optimized out>) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/tasks.c:1484
      9    process 8         0x40095d50 in xQueueGenericReceive (xQueue=0x3ffdfd98, pvBuffer=0x3ffe62e0, xTicksToWait=6000, xJustPeeking=0) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/queue.c:1592
      10   process 9         0x40096b4a in vTaskDelay (xTicksToDelay=<optimized out>) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/tasks.c:1484
      11   process 10        0x40097d31 in prvProcessTimerOrBlockTask (xListWasEmpty=1, xNextExpireTime=<optimized out>) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/timers.c:589
      12   process 11        0x4008162c in esp_crosscore_int_send_yield (core_id=1) at /Users/ehlers/pycom/pycom-esp-idf/components/esp32/crosscore_int.c:112
      13   process 12        0x40095d50 in xQueueGenericReceive (xQueue=0x3ffdce88, pvBuffer=0x3ffe23a0, xTicksToWait=4294967295, xJustPeeking=0) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/queue.c:1592
      14   process 13        0x40095d50 in xQueueGenericReceive (xQueue=0x3ffe3e78, pvBuffer=0x3ffd52a4, xTicksToWait=4294967295, xJustPeeking=0) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/queue.c:1592
      15   process 14        0x40095d50 in xQueueGenericReceive (xQueue=0x3ffb7bd8, pvBuffer=0x0, xTicksToWait=4294967295, xJustPeeking=0) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/queue.c:1592
      16   process 15        0x40095d50 in xQueueGenericReceive (xQueue=0x3ffbd460, pvBuffer=0x3ffdac50, xTicksToWait=4294967295, xJustPeeking=0) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/queue.c:1592
      17   process 16        0x4000bff0 in ?? ()
      18   process 17        0x40095d50 in xQueueGenericReceive (xQueue=0x3ffb760c, pvBuffer=0x0, xTicksToWait=4294967295, xJustPeeking=0) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/queue.c:1592
      19   process 18        0x40095d50 in xQueueGenericReceive (xQueue=0x3ffc4040 <s_timer_semaphore_memory>, pvBuffer=0x0, xTicksToWait=4294967295, xJustPeeking=0) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/queue.c:1592
      20   process 19        0x40095d50 in xQueueGenericReceive (xQueue=0x3ffc95c8 <mp_state_ctx+436>, pvBuffer=0x0, xTicksToWait=4294967295, xJustPeeking=0) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/queue.c:1592
      21   process 20        0x40095d50 in xQueueGenericReceive (xQueue=0x3ffc95c8 <mp_state_ctx+436>, pvBuffer=0x0, xTicksToWait=4294967295, xJustPeeking=0) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/queue.c:1592
      22   process 21        0x40095d50 in xQueueGenericReceive (xQueue=0x3ffc95c8 <mp_state_ctx+436>, pvBuffer=0x0, xTicksToWait=4294967295, xJustPeeking=0) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/queue.c:1592
      23   process 22        0x4008162c in esp_crosscore_int_send_yield (core_id=1) at /Users/ehlers/pycom/pycom-esp-idf/components/esp32/crosscore_int.c:112
      24   process 23        0x40095d50 in xQueueGenericReceive (xQueue=0x3ffc95c8 <mp_state_ctx+436>, pvBuffer=0x0, xTicksToWait=4294967295, xJustPeeking=0) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/queue.c:1592
      25   process 24        0x40095d50 in xQueueGenericReceive (xQueue=0x3ffc95c8 <mp_state_ctx+436>, pvBuffer=0x0, xTicksToWait=4294967295, xJustPeeking=0) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/queue.c:1592
      26   process 25        0x40095d50 in xQueueGenericReceive (xQueue=0x3ffc95c8 <mp_state_ctx+436>, pvBuffer=0x0, xTicksToWait=4294967295, xJustPeeking=0) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/queue.c:1592
      27   process 26        0x40095d50 in xQueueGenericReceive (xQueue=0x3ffd54b8, pvBuffer=0x3ffd68b0, xTicksToWait=4294967295, xJustPeeking=0) at /Users/ehlers/pycom/pycom-esp-idf/components/freertos/queue.c:1592
      28   process 27        0x4000bff0 in ?? ()
    
    ======================= ALL MEMORY REGIONS ========================
    Name   Address   Size   Attrs
    .rtc.text 0x400c0000 0x64 R XA
    .rtc.data 0x50000000 0x81c RW A
    .rtc_noinit 0x5000081c 0x0 RW
    .rtc.force_slow 0x5000081c 0x0 RW
    .iram0.vectors 0x40080000 0x400 R XA
    .iram0.text 0x40080400 0x1886c R XA
    .dram0.data 0x3ffbdb60 0x4960 RW A
    .noinit 0x3ffc24c0 0x0 RW
    .flash.rodata 0x3f400020 0x5e864 RW A
    .flash.text 0x400d0018 0x153c00 R XA
    .coredump.tasks.data 0x3ffb9fb4 0x16c RW
    .coredump.tasks.data 0x3ffbae20 0x1a4 RW
    .coredump.tasks.data 0x3fff2638 0x16c RW
    .coredump.tasks.data 0x3fff4a20 0x584 RW
    .coredump.tasks.data 0x3ffbbeb4 0x16c RW
    .coredump.tasks.data 0x3ffbbd10 0x19c RW
    .coredump.tasks.data 0x3ffbb940 0x16c RW
    .coredump.tasks.data 0x3ffbb7a0 0x198 RW
    .coredump.tasks.data 0x3ffdfb04 0x16c RW
    .coredump.tasks.data 0x3ffd49b0 0x170 RW
    .coredump.tasks.data 0x3ffb4d38 0x16c RW
    .coredump.tasks.data 0x3ffb4b40 0x1f0 RW
    .coredump.tasks.data 0x3ffdcd18 0x16c RW
    .coredump.tasks.data 0x3ffdcbb0 0x160 RW
    .coredump.tasks.data 0x3ffc45ec 0x16c RW
    .coredump.tasks.data 0x3ffd9870 0x894 RW
    .coredump.tasks.data 0x3ffe556c 0x16c RW
    .coredump.tasks.data 0x3ffe61e0 0x8f8 RW
    .coredump.tasks.data 0x3ffb5e74 0x16c RW
    .coredump.tasks.data 0x3ffd3d10 0x20c RW
    .coredump.tasks.data 0x3ffbcb20 0x16c RW
    .coredump.tasks.data 0x3ffbc9c0 0x158 RW
    .coredump.tasks.data 0x3ffb5aac 0x16c RW
    .coredump.tasks.data 0x3ffb58f0 0x1b4 RW
    .coredump.tasks.data 0x3ffde570 0x16c RW
    .coredump.tasks.data 0x3ffe2240 0x218 RW
    .coredump.tasks.data 0x3ffd533c 0x16c RW
    .coredump.tasks.data 0x3ffd5170 0x1c4 RW
    .coredump.tasks.data 0x3ffb7c30 0x16c RW
    .coredump.tasks.data 0x3ffb9cb0 0x188 RW
    .coredump.tasks.data 0x3ffbb0a4 0x16c RW
    .coredump.tasks.data 0x3ffdab50 0x1b8 RW
    .coredump.tasks.data 0x3ffddfe4 0x16c RW
    .coredump.tasks.data 0x3ffdde40 0x19c RW
    .coredump.tasks.data 0x3ffb7a68 0x16c RW
    .coredump.tasks.data 0x3ffb78e0 0x180 RW
    .coredump.tasks.data 0x3ffb727c 0x16c RW
    .coredump.tasks.data 0x3ffb70e0 0x194 RW
    .coredump.tasks.data 0x3ffe95c8 0x16c RW
    .coredump.tasks.data 0x3ffea6e0 0x454 RW
    .coredump.tasks.data 0x3ffec0b0 0x16c RW
    .coredump.tasks.data 0x3ffed1c0 0x45c RW
    .coredump.tasks.data 0x3ffe8054 0x16c RW
    .coredump.tasks.data 0x3ffe9170 0x450 RW
    .coredump.tasks.data 0x3ffeab3c 0x16c RW
    .coredump.tasks.data 0x3ffebc30 0x478 RW
    .coredump.tasks.data 0x3ffe6ae0 0x16c RW
    .coredump.tasks.data 0x3ffe7bf0 0x45c RW
    .coredump.tasks.data 0x3fff4fac 0x16c RW
    .coredump.tasks.data 0x3fff6d50 0x3c8 RW
    .coredump.tasks.data 0x3ffed624 0x16c RW
    .coredump.tasks.data 0x3ffee740 0x450 RW
    .coredump.tasks.data 0x3ffd6954 0x16c RW
    .coredump.tasks.data 0x3ffd6780 0x1cc RW
    .coredump.tasks.data 0x3ffbb2c4 0x16c RW
    .coredump.tasks.data 0x3ffdbb70 0x180 RW
    
    ===================== ESP32 CORE DUMP END =====================
    ===============================================================
    Done!
    

    After this crash, it recovered and ran for about an hour before it crashed again but this time it just got hung up trying to write out the core dump. This is the last thing i got from it.

    Guru Meditation Error: Core  1 panic'ed (InstrFetchProhibited). Exception was unhandled.
    Core 1 register dump:
    PC      : 0xffffffff  PS      : 0x00060c30  A0      : 0x400f801c  A1      : 0x3fff6e00  
    A2      : 0x3fff6e60  A3      : 0x3f970420  A4      : 0x00000003  A5      : 0x00000001  
    A6      : 0x00000000  A7      : 0x3ffb4cb0  A8      : 0xffffffff  A9      : 0x3f40e200  
    A10     : 0x3fff6e60  A11     : 0x3f45babb  A12     : 0x00000001  A13     : 0x00000000  
    A14     : 0x00000000  A15     : 0x00000000  SAR     : 0x0000001e  EXCCAUSE: 0x00000014  
    EXCVADDR: 0xfffffffc  LBEG    : 0x40093b64  LEND    : 0x40093b6f  LCOUNT  : 0x00000000  
    
    ELF file SHA256: ```

  • administrators

    @ssummers said in FiPy crashing using WiFi:

    @Gijs, I am getting an attribute error saying "'module' object has no attribute 'lte_modem_on_boot'". I am currently running 1.20.2.r0.

    The correct command is pycom.lte_modem_en_on_boot(False)

    These settings are persistent and the commands need to be executed only once unless the config partition is erased/reset.



  • @Gijs, I am getting an attribute error saying "'module' object has no attribute 'lte_modem_on_boot'". I am currently running 1.20.2.r0.



  • @Gijs, I will try it. Do I need to put it in boot.py or just at the beginning of my main.py?



  • Can you try to

    import pycom
    pycom.wifi_on_boot(False)
    pycom.pybytes_on_boot(False)
    pycom.lte_modem_on_boot(False)
    

    (I thought there were some more but I cannot think of any at the moment)

    Gijs



  • @Cees_Meijer, thank you for the advice. I already disable the heartbeat on boot but I do not use deepsleep. My system has to run 24/7.



  • This could be unrelated to your problem, but I also have been struggling with FiPy crashes lately, and found it to be a power problem, in combination with the LED heartbeat. The FiPy crashed after some time (1 to 12 hours), right after waking from deepsleep. I resolved it by disabling the heartbeat in boot.py. Multiple systems have been running flawless ever since.



  • To add to this topic, I have switched from WiFi to LTE for internet and so far the system has not crashed since my first post. Also, could the RTC have something to do with this? I am using the default sync time of 1 hour which is about how long my system would run on WiFi before crashing.

    firmware version is 1.20.2.r0


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