Merge pull request #608 from cyberman54/development

v1.9.996
2020-06-06 15:22:21 +02:00 · 2020-06-06 15:22:21 +02:00 · 956ea2f879
commit 956ea2f879
parent de9f01bb01 48cbe53cee
22 changed files with 430 additions and 59 deletions
--- a/README.md
+++ b/README.md
@ -63,7 +63,8 @@ Depending on board hardware following features are supported:
 - IF482 (serial) and DCF77 (gpio) time telegram generator
 - Switch external power / battery
 - LED Matrix display (similar to [this 64x16 model](https://www.instructables.com/id/64x16-RED-LED-Marquee/), can be ordered on [Aliexpress](https://www.aliexpress.com/item/P3-75-dot-matrix-led-module-3-75mm-high-clear-top1-for-text-display-304-60mm/32616683948.html))
- SD-card (see section SD-card here)
+- SD-card (see section SD-card here) for logging pax data
 - Ethernet interface for MQTT communication via TCP/IP
 Target platform must be selected in [platformio.ini](https://github.com/cyberman54/ESP32-Paxcounter/blob/master/platformio.ini).<br>
 Hardware dependent settings (pinout etc.) are stored in board files in /hal directory. If you want to use a ESP32 board which is not yet supported, use hal file generic.h and tailor pin mappings to your needs. Pull requests for new boards welcome.<br>
@ -207,8 +208,11 @@ There in the sensor configuration select "TheThingsNetwork" and set Decoding Pro
 # SD-card
 Data can be stored on an SD-card if one is availabe. Simply choose the file in src/hal and add the following lines to your hal-file:
-    #define HAS_SDCARD 1     // this board has an SD-card-reader/writer
+    #define HAS_SDCARD 1     // SD-card-reader/writer, using SPI interface
-    // Pins for SD-card
+	OR
 	#define HAS_SDCARD 2     // SD-card-reader/writer, using SDMMC interface
    // Pins for SPI interface
    #define SDCARD_CS   (13) // fill in the correct numbers for your board
    #define SDCARD_MOSI (15)
    #define SDCARD_MISO (2)
--- a/build.py
+++ b/build.py
@ -66,16 +66,20 @@ myboard = mykeys["board"]
 myuploadspeed = mykeys["upload_speed"]
 env.Replace(BOARD=myboard)
 env.Replace(UPLOAD_SPEED=myuploadspeed)
 print('\033[94m' + "Target board: " + myboard + " @ " + myuploadspeed + "bps" + '\033[0m')
 # re-set partition table
 mypartitiontable = config.get("env", "board_build.partitions")
 board = env.BoardConfig(myboard)
 board.manifest['build']['partitions'] = mypartitiontable
 # display target
 print('\033[94m' + "TARGET BOARD: " + myboard + " @ " + myuploadspeed + "bps" + '\033[0m')
 print('\033[94m' + "Partition table: " + mypartitiontable + '\033[0m')
 # set display library
 if "display_library" in mykeys:
    mydisplay = mykeys["display_library"]
    env.Append(display_library=mydisplay)
    print('\033[94m' + "Display library: " + mydisplay + '\033[0m')
 # parse ota key file
 with open(otakeyfile) as myfile:
    for line in myfile:
--- a/include/cyclic.h
+++ b/include/cyclic.h
@ -5,6 +5,7 @@
 #include "senddata.h"
 #include "rcommand.h"
 #include "spislave.h"
 #include "mqttclient.h"
 #include "bmesensor.h"
 #include "display.h"
 #include "sds011read.h"
--- a/include/display.h
+++ b/include/display.h
@ -5,7 +5,7 @@
 #include "qrcode.h"
 #if (HAS_DISPLAY) == 1
-#include <ss_oled.h>
+#include <OneBitDisplay.h>
 #elif (HAS_DISPLAY) == 2
 #include <TFT_eSPI.h>
 #endif
--- a/include/mqttclient.h
+++ b/include/mqttclient.h
@ -0,0 +1,26 @@
 #ifndef _MQTTCLIENT_H
 #define _MQTTCLIENT_H
 #include "globals.h"
 #include "rcommand.h"
 #include <ETH.h>
 #include <PubSubClient.h>
 #define MQTT_INTOPIC "paxcounter_in/"
 #define MQTT_OUTTOPIC "paxcounter_out/"
 #define MQTT_PORT 1883
 #define MQTT_SERVER "broker.hivemq.com"
 #define MQTT_RETRYSEC 10 // retry reconnect every 10 seconds
 extern TaskHandle_t mqttTask;
 extern PubSubClient mqttClient;
 void mqtt_enqueuedata(MessageBuffer_t *message);
 void mqtt_queuereset(void);
 void mqtt_client_task(void *param);
 int mqtt_connect(const char *my_host, const uint16_t my_port);
 void mqtt_callback(char *topic, byte *payload, unsigned int length);
 void NetworkEvent(WiFiEvent_t event);
 esp_err_t mqtt_init(void);
 #endif // _MQTTCLIENT_H
--- a/include/power.h
+++ b/include/power.h
@ -18,6 +18,22 @@
 #define BAT_MIN_VOLTAGE 3100 // millivolts
 #endif
 #ifndef PMU_CHG_CUTOFF
 #ifdef HAS_PMU
 #define PMU_CHG_CUTOFF AXP202_TARGET_VOL_4_2V
 #elif defined HAS_IP5306
 #define PMU_CHG_CUTOFF 0
 #endif
 #endif
 #ifndef PMU_CHG_CURRENT
 #ifdef HAS_PMU
 #define PMU_CHG_CURRENT AXP1XX_CHARGE_CUR_450MA
 #elif defined HAS_IP5306
 #define PMU_CHG_CURRENT 2
 #endif
 #endif
 typedef uint8_t (*mapFn_t)(uint16_t, uint16_t, uint16_t);
 uint16_t read_voltage(void);
@ -37,10 +53,14 @@ void AXP192_showstatus(void);
 #endif // HAS_PMU
 #ifdef HAS_IP5306
 void IP5306_init(void);
 void printIP5306Stats(void);
 uint8_t IP5306_GetPowerSource(void);
 uint8_t IP5306_GetBatteryLevel(void);
 uint8_t IP5306_GetBatteryFull(void);
 void IP5306_SetChargerEnabled(uint8_t v);
 void IP5306_SetChargeCutoffVoltage(uint8_t v);
 void IP5306_SetEndChargeCurrentDetection(uint8_t v);
 #endif
 // The following map functions were taken from
--- a/include/sdcard.h
+++ b/include/sdcard.h
@ -4,14 +4,42 @@
 #include <globals.h>
 #include <stdio.h>
 #include <SPI.h>
 #ifdef HAS_SDCARD
 #if HAS_SDCARD == 1
 #include <mySD.h>
 #elif HAS_SDCARD == 2
 #include <SD_MMC.h>
 #else
 #error HAS_SDCARD unknown card reader value, must be either 1 or 2
 #endif
 #endif
 #ifdef HAS_SDS011
 #include "sds011read.h"
 #endif
-#define SDCARD_FILE_NAME       "paxcount.%02d"
+#ifndef SDCARD_CS
 #define SDCARD_CS SS
 #endif
 #ifndef SDCARD_MOSI
 #define SDCARD_MOSI MOSI
 #endif
 #ifndef SDCARD_MISO
 #define SDCARD_MISO MISO
 #endif
 #ifndef SDCARD_SCLK
 #define SDCARD_SCLK SCK
 #endif
 #define SDCARD_FILE_NAME "/paxcount.%02d"
 #define SDCARD_FILE_HEADER "date, time, wifi, bluet"
-bool sdcard_init( void );
+bool sdcard_init(void);
-void sdcardWriteData( uint16_t, uint16_t);
+void sdcardWriteData(uint16_t, uint16_t);
 static void createFile(void);
 #endif
--- a/include/senddata.h
+++ b/include/senddata.h
@ -2,6 +2,7 @@
 #define _SENDDATA_H
 #include "spislave.h"
 #include "mqttclient.h"
 #include "cyclic.h"
 #include "sensor.h"
 #include "lorawan.h"
--- a/platformio.ini
+++ b/platformio.ini
@ -33,6 +33,7 @@ halfile = generic.h
 ;halfile = tinypicomatrix.h
 ;halfile = m5core.h
 ;halfile = m5fire.h
 ;halfile = olimexpoeiso.h
 [platformio]
 ; upload firmware to board with usb cable
@ -45,7 +46,7 @@ description = Paxcounter is a device for metering passenger flows in realtime. I
 [common]
 ; for release_version use max. 10 chars total, use any decimal format like "a.b.c"
-release_version = 1.9.991
+release_version = 1.9.996
 ; DEBUG LEVEL: For production run set to 0, otherwise device will leak RAM while running!
 ; 0=None, 1=Error, 2=Warn, 3=Info, 4=Debug, 5=Verbose
 debug_level = 3
@ -53,26 +54,28 @@ extra_scripts = pre:build.py
 otakeyfile = ota.conf
 lorakeyfile = loraconf.h
 lmicconfigfile = lmic_config.h
-platform_espressif32 = espressif32@1.12.1
+platform_espressif32 = espressif32@1.12.2
 monitor_speed = 115200
-upload_speed = 115200
+upload_speed = 115200 ; set by build.py and taken from hal file
 display_library = ; set by build.py and taken from hal file
 lib_deps_lora =
    MCCI LoRaWAN LMIC library@3.2.0 ; MCCI LMIC by Terrill Moore
 lib_deps_display =
-    ss_oled@4.1.3 ; fast and small OLED lib by Larry Bank
+    ;OneBitDisplay@>1.4.0
-    BitBang_I2C@2.1.1
+    https://github.com/bitbank2/OneBitDisplay.git
    QRCode@0.0.1
-    TFT_eSPI@2.2.2
+    BitBang_I2C@2.1.1
-lib_deps_matrix_display =
+    TFT_eSPI@>=2.2.8
 lib_deps_ledmatrix =
    Ultrathin_LED_Matrix@>=1.0.0
 lib_deps_rgbled =
    SmartLeds@>=1.2.0
 lib_deps_gps =
    1655@>=1.0.2 ; #1655 TinyGPSPlus by Mikal Hart
 lib_deps_sensors =
-    Adafruit Unified Sensor@>=1.1.2
+    Adafruit Unified Sensor@>=1.1.3
    Adafruit BME280 Library@>=2.0.2
-    Adafruit BMP085 Library@>=1.0.1
+    Adafruit BMP085 Library@>=1.1.0
    BSEC Software Library@1.5.1474
    https://github.com/ricki-z/SDS011.git
 lib_deps_basic =
@ -80,8 +83,9 @@ lib_deps_basic =
    76@>=1.2.4 ; #76 Timezone by Jack Christensen
    274@>=2.3.4 ; #274 RTC by Michael Miller
    SimpleButton
-    AXP202X_Library@>=1.1.0 ; AXP202 PMU lib by Lewis He
+    AXP202X_Library@>=1.1.1 ; AXP202 PMU lib by Lewis He
    esp32-micro-sdcard
    PubSubClient@>=2.8.0
 lib_deps_all =
    ${common.lib_deps_basic}
    ${common.lib_deps_lora}
@ -89,7 +93,7 @@ lib_deps_all =
    ${common.lib_deps_rgbled}
    ${common.lib_deps_gps}
    ${common.lib_deps_sensors}
-    ${common.lib_deps_matrix_display}
+    ${common.lib_deps_ledmatrix}
 build_flags_basic =
    -include "src/hal/${board.halfile}"
    -include "src/paxcounter.conf"
@ -110,7 +114,7 @@ framework = arduino
 board = esp32dev
 board_build.partitions = min_spiffs.csv
 upload_speed = ${common.upload_speed}
-;upload_port = COM5
+;upload_port = COM7
 platform = ${common.platform_espressif32}
 lib_deps = ${common.lib_deps_all}
 build_flags = ${common.build_flags_all}
--- a/src/cyclic.cpp
+++ b/src/cyclic.cpp
@ -52,6 +52,11 @@ void doHousekeeping() {
  ESP_LOGD(TAG, "spiloop %d bytes left | Taskstate = %d",
           uxTaskGetStackHighWaterMark(spiTask), eTaskGetState(spiTask));
 #endif
 #ifdef HAS_MQTT
  ESP_LOGD(TAG, "MQTTloop %d bytes left | Taskstate = %d",
           uxTaskGetStackHighWaterMark(mqttTask), eTaskGetState(mqttTask));
  mqttClient.loop();
 #endif
 #if (defined HAS_DCF77 || defined HAS_IF482)
  ESP_LOGD(TAG, "Clockloop %d bytes left | Taskstate = %d",
--- a/src/display.cpp
+++ b/src/display.cpp
@ -49,24 +49,29 @@ static int dp_row = 0, dp_col = 0, dp_font = 0;
 QRCode qrcode;
 #ifdef HAS_DISPLAY
 #if (HAS_DISPLAY) == 1
-SSOLED ssoled;
+OBDISP ssoled;
 #elif (HAS_DISPLAY) == 2
 TFT_eSPI tft = TFT_eSPI();
 #else
 #error Unknown display type specified in hal file
 #endif
 #endif
 void dp_setup(int contrast) {
 #if (HAS_DISPLAY) == 1 // I2C OLED
-  int rc = oledInit(&ssoled, OLED_TYPE, OLED_ADDR, MY_DISPLAY_FLIP,
+
  int rc = obdI2CInit(&ssoled, OLED_TYPE, OLED_ADDR, MY_DISPLAY_FLIP,
                      MY_DISPLAY_INVERT, USE_HW_I2C, MY_DISPLAY_SDA,
                      MY_DISPLAY_SCL, MY_DISPLAY_RST,
                      OLED_FREQUENCY); // use standard I2C bus at 400Khz
  assert(rc != OLED_NOT_FOUND);
  // set display buffer
-  oledSetBackBuffer(&ssoled, displaybuf);
+  obdSetBackBuffer(&ssoled, displaybuf);
-  oledSetTextWrap(&ssoled, true);
+  obdSetTextWrap(&ssoled, true);
  dp_font = MY_FONT_NORMAL;
 #elif (HAS_DISPLAY) == 2 // SPI TFT
@ -466,7 +471,7 @@ void dp_setTextCursor(int x, int y) {
 #if (HAS_DISPLAY) == 1
  dp_row = y;
-  oledSetCursor(&ssoled, dp_col, dp_row);
+  obdSetCursor(&ssoled, dp_col, dp_row);
 #elif (HAS_DISPLAY) == 2
  switch (dp_font >> 1) {
@ -538,7 +543,7 @@ void dp_printf(const char *format, ...) {
  }
  va_end(arg);
 #if (HAS_DISPLAY) == 1
-  oledWriteString(&ssoled, 0, -1, dp_row, temp, dp_font >> 1, dp_font & 0x01,
+  obdWriteString(&ssoled, 0, -1, dp_row, temp, dp_font >> 1, dp_font & 0x01,
                 false);
 #elif (HAS_DISPLAY) == 2
  tft.printf(temp);
@ -550,7 +555,7 @@ void dp_printf(const char *format, ...) {
 void dp_dump(uint8_t *pBuffer) {
 #if (HAS_DISPLAY) == 1
-  oledDumpBuffer(&ssoled, pBuffer);
+  obdDumpBuffer(&ssoled, pBuffer);
 #elif (HAS_DISPLAY) == 2
  // probably oled buffer stucture is not suitable for tft -> to be checked
  tft.drawBitmap(0, 0, pBuffer, MY_DISPLAY_WIDTH, MY_DISPLAY_HEIGHT,
@ -561,7 +566,7 @@ void dp_dump(uint8_t *pBuffer) {
 void dp_clear(void) {
  dp_setTextCursor(0, 0);
 #if (HAS_DISPLAY) == 1
-  oledFill(&ssoled, 0, 1);
+  obdFill(&ssoled, 0, 1);
 #elif (HAS_DISPLAY) == 2
  tft.fillScreen(MY_DISPLAY_BGCOLOR);
 #endif
@ -569,7 +574,7 @@ void dp_clear(void) {
 void dp_contrast(uint8_t contrast) {
 #if (HAS_DISPLAY) == 1
-  oledSetContrast(&ssoled, contrast);
+  obdSetContrast(&ssoled, contrast);
 #elif (HAS_DISPLAY) == 2
  // to do: gamma correction for TFT
 #endif
@ -577,7 +582,7 @@ void dp_contrast(uint8_t contrast) {
 void dp_power(uint8_t screenon) {
 #if (HAS_DISPLAY) == 1
-  oledPower(&ssoled, screenon);
+  obdPower(&ssoled, screenon);
 #elif (HAS_DISPLAY) == 2
  // to come
 #endif
@ -590,7 +595,7 @@ void dp_shutdown(void) {
    ESP_LOGV(TAG, "[%0.3f] i2c mutex lock failed", millis() / 1000.0);
  else {
    cfg.screenon = 0;
-    oledPower(&ssoled, false);
+    obdPower(&ssoled, false);
    delay(DISPLAYREFRESH_MS / 1000 * 1.1);
    I2C_MUTEX_UNLOCK(); // release i2c bus access
  }
@ -630,7 +635,7 @@ void dp_fillRect(uint16_t x, uint16_t y, uint16_t width, uint16_t height,
                 uint8_t bRender) {
 #if (HAS_DISPLAY) == 1
  for (uint16_t xi = x; xi < x + width; xi++)
-    oledDrawLine(&ssoled, xi, y, xi, y + height - 1, bRender);
+    obdDrawLine(&ssoled, xi, y, xi, y + height - 1, 1, bRender);
 #elif (HAS_DISPLAY) == 2
  tft.fillRect(x, y, width, height, MY_DISPLAY_FGCOLOR);
 #endif
--- a/src/hal/generic.h
+++ b/src/hal/generic.h
@ -1,6 +1,7 @@
 // clang-format off
 // upload_speed 115200
 // board esp32dev
 // display_library lib_deps_oled_display
 #ifndef _GENERIC_H
 #define _GENERIC_H
--- a/src/hal/m5core.h
+++ b/src/hal/m5core.h
@ -37,7 +37,12 @@
 #define HAS_LED NOT_A_PIN // no on board LED (?)
 #define HAS_BUTTON (39) // on board button A
-#define HAS_IP5306 1
+// power management settings
 #define HAS_IP5306 1 // has IP5306 chip
 #define PMU_CHG_CURRENT 2 // battery charge current
 // possible values: 0:200mA, 1:400mA, *2:500mA, 3:600mA
 #define PMU_CHG_CUTOFF 0 // battery charge cutoff
 // possible values: *0:4.2V, 1:4.3V, 2:4.35V, 3:4.4V
 // GPS settings
 #define HAS_GPS 1 // use on board GPS
--- a/src/hal/m5fire.h
+++ b/src/hal/m5fire.h
@ -41,7 +41,12 @@
 #define HAS_RGB_LED SmartLed rgb_led(LED_SK6812, RGB_LED_COUNT, GPIO_NUM_15) // LED_SK6812 RGB LED on GPIO15
 #define HAS_BUTTON (39) // on board button A
-#define HAS_IP5306 1
+// power management settings
 #define HAS_IP5306 1 // has IP5306 chip
 #define PMU_CHG_CURRENT 2 // battery charge current
 // possible values: 0:200mA, 1:400mA, *2:500mA, 3:600mA
 #define PMU_CHG_CUTOFF 0 // battery charge cutoff
 // possible values: *0:4.2V, 1:4.3V, 2:4.35V, 3:4.4V
 // GPS settings
 #define HAS_GPS 0 // use on board GPS
--- a/src/hal/olimexpoeiso.h
+++ b/src/hal/olimexpoeiso.h
@ -0,0 +1,24 @@
 // clang-format off
 // upload_speed 921600
 // board esp32-poe-iso
 #ifndef _OLIMEXPOEISO_H
 #define _OLIMEXPOEISO_H
 #include <stdint.h>
 // enable only if you want to store a local paxcount table on the device
 //#define HAS_SDCARD 2 // this board has a SDMMC card-reader/writer
 // enable only if you want to send paxcount via ethernet port to mqtt server
 #define HAS_MQTT 1  // use MQTT on ethernet interface
 //#define BAT_MEASURE_ADC ADC1_GPIO35_CHANNEL // battery probe GPIO pin -> ADC1_CHANNEL_7
 //#define BAT_VOLTAGE_DIVIDER 2 // voltage divider 470k/470k on board
 #define BAT_MEASURE_ADC ADC1_GPIO39_CHANNEL // external power probe GPIO pin
 #define BAT_VOLTAGE_DIVIDER 2.1277f // voltage divider 47k/442k on board
 #define HAS_BUTTON KEY_BUILTIN // on board button
 #define HAS_LED NOT_A_PIN // no on board LED
 #endif
--- a/src/hal/ttgobeam10.h
+++ b/src/hal/ttgobeam10.h
@ -9,7 +9,7 @@
 /* 
 Hardware related definitions for TTGO T-Beam board
-(only) for newer T-Beam version T22_V10
+for T-Beam versions T22_V10 + T22_V11
 pinouts taken from https://github.com/lewisxhe/TTGO-T-Beam
 /// Button functions: ///
@ -20,7 +20,7 @@ User, long press -> send LORA message
 Reset -> reset device
 */
-#define HAS_DISPLAY 1
+//#define HAS_DISPLAY 1
 #define MY_DISPLAY_SDA SDA
 #define MY_DISPLAY_SCL SCL
 #define MY_DISPLAY_RST NOT_A_PIN
@ -29,11 +29,18 @@ Reset -> reset device
 #define HAS_LORA 1       // comment out if device shall not send data via LoRa
 #define CFG_sx1276_radio 1 // HPD13A LoRa SoC
 #define HAS_BUTTON GPIO_NUM_38 // middle on board button
 #define HAS_PMU 1 // AXP192 power management chip
 #define PMU_INT GPIO_NUM_35 // AXP192 interrupt
 #define HAS_LED NOT_A_PIN
 // power management settings
 #define HAS_PMU 1 // has AXP192 chip
 #define PMU_INT GPIO_NUM_35 // battery interrupt
 #define PMU_CHG_CURRENT AXP1XX_CHARGE_CUR_1000MA // battery charge current
 // possible values (mA):
 // 100/190/280/360/450/550/630/700/780/880/960/1000/1080/1160/1240/1320
 #define PMU_CHG_CUTOFF AXP202_TARGET_VOL_4_2V // battery charge cutoff
 // possible values (V):
 // 4_1/4_15/4_2/4_36
 // GPS settings
 #define HAS_GPS 1 // use on board GPS
 #define GPS_SERIAL 9600, SERIAL_8N1, GPIO_NUM_34, GPIO_NUM_12 // UBlox NEO 6M
--- a/src/main.cpp
+++ b/src/main.cpp
@ -29,6 +29,7 @@ Task          Core  Prio  Purpose
 -------------------------------------------------------------------------------
 ledloop       0     3     blinks LEDs
 spiloop       0     2     reads/writes data on spi interface
 mqttloop      0     2     reads/writes data on ETH interface
 IDLE          0     0     ESP32 arduino scheduler -> runs wifi sniffer
 lmictask      1     2     MCCI LMiC LORAWAN stack
@ -185,14 +186,22 @@ void setup() {
  digitalWrite(EXT_POWER_SW, EXT_POWER_ON);
  strcat_P(features, " VEXT");
 #endif
 #if defined HAS_PMU || defined HAS_IP5306
 #ifdef HAS_PMU
  AXP192_init();
 #elif defined HAS_IP5306
  IP5306_init();
 #endif
  strcat_P(features, " PMU");
 #endif
  // read (and initialize on first run) runtime settings from NVRAM
  loadConfig(); // includes initialize if necessary
  // now that we are powered, we scan i2c bus for devices
  i2c_scan();
 // initialize display
 #ifdef HAS_DISPLAY
  strcat_P(features, " OLED");
@ -201,9 +210,6 @@ void setup() {
  dp_init(RTC_runmode == RUNMODE_POWERCYCLE ? true : false);
 #endif
  // scan i2c bus for devices
  i2c_scan();
 #ifdef BOARD_HAS_PSRAM
  assert(psramFound());
  ESP_LOGI(TAG, "PSRAM found and initialized");
@ -325,6 +331,12 @@ void setup() {
  assert(spi_init() == ESP_OK);
 #endif
 // initialize MQTT
 #ifdef HAS_MQTT
  strcat_P(features, " MQTT");
  assert(mqtt_init() == ESP_OK);
 #endif
 #ifdef HAS_SDCARD
  if (sdcard_init())
    strcat_P(features, " SD");
--- a/src/mqttclient.cpp
+++ b/src/mqttclient.cpp
@ -0,0 +1,163 @@
 #ifdef HAS_MQTT
 #include "mqttclient.h"
 static const char TAG[] = __FILE__;
 QueueHandle_t MQTTSendQueue;
 TaskHandle_t mqttTask;
 WiFiClient EthClient;
 PubSubClient mqttClient(EthClient);
 void NetworkEvent(WiFiEvent_t event) {
  switch (event) {
  case SYSTEM_EVENT_ETH_START:
    ESP_LOGI(TAG, "Ethernet link layer started");
    ETH.setHostname(ETH.macAddress().c_str());
    break;
  case SYSTEM_EVENT_ETH_CONNECTED:
    ESP_LOGI(TAG, "Network link connected");
    break;
  case SYSTEM_EVENT_ETH_GOT_IP:
    ESP_LOGI(TAG, "ETH MAC: %s", ETH.macAddress().c_str());
    ESP_LOGI(TAG, "IPv4: %s", ETH.localIP().toString().c_str());
    ESP_LOGI(TAG, "Link Speed: %d Mbps %s", ETH.linkSpeed(),
             ETH.fullDuplex() ? "full duplex" : "half duplex");
    mqtt_connect(MQTT_SERVER, MQTT_PORT);
    break;
  case SYSTEM_EVENT_ETH_DISCONNECTED:
    ESP_LOGI(TAG, "Network link disconnected");
    break;
  case SYSTEM_EVENT_ETH_STOP:
    ESP_LOGI(TAG, "Ethernet link layer stopped");
    break;
  default:
    break;
  }
 }
 int mqtt_connect(const char *my_host, const uint16_t my_port) {
  IPAddress mqtt_server_ip;
  static String clientId = "paxcounter-" + ETH.macAddress();
  ESP_LOGI(TAG, "MQTT name is %s", clientId.c_str());
  // resolve server
  if (WiFi.hostByName(my_host, mqtt_server_ip)) {
    ESP_LOGI(TAG, "Attempting to connect to %s [%s]", my_host,
             mqtt_server_ip.toString().c_str());
  } else {
    ESP_LOGI(TAG, "Could not resolve %s", my_host);
    return -1;
  }
  // attempt to connect to MQTT server
  if (EthClient.connect(mqtt_server_ip, my_port, HOMECYCLE * 2 * 1000)) {
    mqttClient.setServer(mqtt_server_ip, my_port);
    mqttClient.setKeepAlive(HOMECYCLE * 2);
    mqttClient.setCallback(mqtt_callback);
    if (mqttClient.connect(clientId.c_str())) {
      ESP_LOGI(TAG, "MQTT server connected, subscribing...");
      mqttClient.publish(MQTT_OUTTOPIC, clientId.c_str());
      mqttClient.subscribe(MQTT_INTOPIC);
      ESP_LOGI(TAG, "MQTT topic subscribed");
    } else {
      ESP_LOGW(TAG, "MQTT server not responding, retrying later");
      return -1;
    }
  } else {
    ESP_LOGW(TAG, "MQTT server not connected, retrying later");
    return -1;
  }
 }
 void mqtt_client_task(void *param) {
  MessageBuffer_t msg;
  while (1) {
    // fetch next or wait for payload to send from queue
    if (xQueueReceive(MQTTSendQueue, &msg, portMAX_DELAY) != pdTRUE) {
      ESP_LOGE(TAG, "Premature return from xQueueReceive() with no data!");
      continue;
    }
    // send data to mqtt server, if we are connected
    if (mqttClient.connected()) {
      mqttClient.beginPublish(MQTT_OUTTOPIC, msg.MessageSize + 2, false);
      mqttClient.write(msg.MessagePort);
      mqttClient.write('/');
      mqttClient.write(msg.Message, msg.MessageSize);
      if (mqttClient.endPublish()) {
        ESP_LOGI(TAG, "%d byte(s) sent to MQTT", msg.MessageSize + 2);
        continue; // while(1)
      } else
        goto reconnect;
    } else {
      // attempt to reconnect to MQTT server
    reconnect:
      mqtt_enqueuedata(&msg); // postpone the undelivered message
      delay(MQTT_RETRYSEC * 1000);
      mqtt_connect(MQTT_SERVER, MQTT_PORT);
    }
  } // while(1)
 }
 esp_err_t mqtt_init(void) {
  assert(SEND_QUEUE_SIZE);
  MQTTSendQueue = xQueueCreate(SEND_QUEUE_SIZE, sizeof(MessageBuffer_t));
  if (MQTTSendQueue == 0) {
    ESP_LOGE(TAG, "Could not create MQTT send queue. Aborting.");
    return ESP_FAIL;
  }
  ESP_LOGI(TAG, "MQTT send queue created, size %d Bytes",
           SEND_QUEUE_SIZE * PAYLOAD_BUFFER_SIZE);
  ESP_LOGI(TAG, "Starting MQTTloop...");
  xTaskCreate(mqtt_client_task, "mqttloop", 4096, (void *)NULL, 2, &mqttTask);
  WiFi.onEvent(NetworkEvent);
  ETH.begin();
  return ESP_OK;
 }
 void mqtt_enqueuedata(MessageBuffer_t *message) {
  // enqueue message in MQTT send queue
  BaseType_t ret;
  MessageBuffer_t DummyBuffer;
  sendprio_t prio = message->MessagePrio;
  switch (prio) {
  case prio_high:
    // clear space in queue if full, then fallthrough to normal
    if (!uxQueueSpacesAvailable(MQTTSendQueue))
      xQueueReceive(MQTTSendQueue, &DummyBuffer, (TickType_t)0);
  case prio_normal:
    ret = xQueueSendToFront(MQTTSendQueue, (void *)message, (TickType_t)0);
    break;
  case prio_low:
  default:
    ret = xQueueSendToBack(MQTTSendQueue, (void *)message, (TickType_t)0);
    break;
  }
  if (ret != pdTRUE)
    ESP_LOGW(TAG, "MQTT sendqueue is full");
 }
 void mqtt_callback(char *topic, byte *payload, unsigned int length) {
  String s = "";
  for (int i = 0; i < length; i++)
    s += (char)payload[i];
  ESP_LOGD(TAG, "MQTT: Received %u byte(s) of payload [%s]", length, s);
  // rcommand(payload, length);
 }
 void mqtt_queuereset(void) { xQueueReset(MQTTSendQueue); }
 #endif // HAS_MQTT
--- a/src/power.cpp
+++ b/src/power.cpp
@ -143,6 +143,13 @@ void AXP192_init(void) {
    pmu.clearIRQ();
 #endif // PMU_INT
 // set charging parameterss according to user settings if we have (see power.h)
 #ifdef PMU_CHARGE_CURRENT
    pmu.setChargeControlCur(PMU_CHARGE_CURRENT);
    pmu.setChargingTargetVoltage(PMU_CHARGE_CUTOFF);
    pmu.enableChargeing(true);
 #endif
    ESP_LOGI(TAG, "AXP192 PMU initialized");
  }
 }
@ -292,6 +299,20 @@ uint8_t IP5306_GetBatteryLevel(void) {
  return IP5306_LEDS2PCT(state);
 }
 void IP5306_SetChargerEnabled(uint8_t v) {
  ip5306_set_bits(IP5306_REG_SYS_0, 4, 1, v); // 0:dis,*1:en
 }
 void IP5306_SetChargeCutoffVoltage(uint8_t v) {
  ip5306_set_bits(IP5306_REG_CHG_2, 2, 2,
                  v); //*0:4.2V, 1:4.3V, 2:4.35V, 3:4.4V
 }
 void IP5306_SetEndChargeCurrentDetection(uint8_t v) {
  ip5306_set_bits(IP5306_REG_CHG_1, 6, 2,
                  v); // 0:200mA, 1:400mA, *2:500mA, 3:600mA
 }
 void printIP5306Stats(void) {
  bool usb = IP5306_GetPowerSource();
  bool full = IP5306_GetBatteryFull();
@ -302,4 +323,10 @@ void printIP5306Stats(void) {
           full ? "CHARGED" : (usb ? "CHARGING" : "DISCHARGING"), level);
 }
 void IP5306_init(void) {
  IP5306_SetChargerEnabled(1);
  IP5306_SetChargeCutoffVoltage(PMU_CHG_CUTOFF);
  IP5306_SetEndChargeCurrentDetection(PMU_CHG_CURRENT);
 }
 #endif // HAS_IP5306
--- a/src/sdcard.cpp
+++ b/src/sdcard.cpp
@ -1,25 +1,34 @@
 // routines for writing data to an SD-card, if present
 #if (HAS_SDCARD)
 // Local logging tag
 static const char TAG[] = __FILE__;
 #include "sdcard.h"
-static bool useSDCard;
+#ifdef HAS_SDCARD
-static void createFile(void);
+static bool useSDCard;
 File fileSDCard;
 bool sdcard_init() {
-  ESP_LOGD(TAG, "looking for SD-card...");
+  ESP_LOGI(TAG, "looking for SD-card...");
  // for usage of SD drivers on ESP32 platform see
  // https://docs.espressif.com/projects/esp-idf/en/latest/esp32/api-reference/peripherals/sdspi_host.html
  // https://docs.espressif.com/projects/esp-idf/en/latest/esp32/api-reference/peripherals/sdmmc_host.html
 #if HAS_SDCARD == 1 // use SD SPI host driver
  useSDCard = SD.begin(SDCARD_CS, SDCARD_MOSI, SDCARD_MISO, SDCARD_SCLK);
-  if (useSDCard)
+#elif HAS_SDCARD == 2 // use SD MMC host driver
  useSDCard = SD_MMC.begin();
 #endif
  if (useSDCard) {
    ESP_LOGI(TAG, "SD-card found");
    createFile();
-  else
+  } else
-    ESP_LOGD(TAG, "SD-card not found");
+    ESP_LOGI(TAG, "SD-card not found");
  return useSDCard;
 }
@ -63,11 +72,23 @@ void createFile(void) {
  for (int i = 0; i < 100; i++) {
    sprintf(bufferFilename, SDCARD_FILE_NAME, i);
-    ESP_LOGD(TAG, "SD: looking for file <%s>", bufferFilename);
+    // ESP_LOGD(TAG, "SD: looking for file <%s>", bufferFilename);
 #if HAS_SDCARD == 1
    bool fileExists = SD.exists(bufferFilename);
 #elif HAS_SDCARD == 2
    bool fileExists = SD_MMC.exists(bufferFilename);
 #endif
    if (!fileExists) {
-      ESP_LOGD(TAG, "SD: file does not exist: opening");
+      // ESP_LOGD(TAG, "SD: file does not exist: opening");
 #if HAS_SDCARD == 1
      fileSDCard = SD.open(bufferFilename, FILE_WRITE);
 #elif HAS_SDCARD == 2
      fileSDCard = SD_MMC.open(bufferFilename, FILE_WRITE);
 #endif
      if (fileSDCard) {
        ESP_LOGD(TAG, "SD: name opened: <%s>", bufferFilename);
        fileSDCard.print(SDCARD_FILE_HEADER);
--- a/src/senddata.cpp
+++ b/src/senddata.cpp
@ -50,6 +50,9 @@ void SendPayload(uint8_t port, sendprio_t prio) {
 #ifdef HAS_SPI
  spi_enqueuedata(&SendBuffer);
 #endif
 #ifdef HAS_MQTT
  mqtt_enqueuedata(&SendBuffer);
 #endif
 // write data to sdcard, if present
 #ifdef HAS_SDCARD
@ -179,4 +182,7 @@ void flushQueues() {
 #ifdef HAS_SPI
  spi_queuereset();
 #endif
 #ifdef HAS_MQTT
  mqtt_queuereset();
 #endif
 }
--- a/src/timekeeper.cpp
+++ b/src/timekeeper.cpp
@ -1,5 +1,6 @@
 #include "timekeeper.h"
 /*
 #if !(HAS_LORA)
 #if (TIME_SYNC_LORASERVER)
 #error TIME_SYNC_LORASERVER defined, but device has no LORA configured
@ -7,6 +8,7 @@
 #error TIME_SYNC_LORAWAN defined, but device has no LORA configured
 #endif
 #endif
 */
 // Local logging tag
 static const char TAG[] = __FILE__;