ardupilot/libraries/AP_HAL_ESP32
Rhys Mainwaring d1cbf30286 AP_HAL_ESP32: add targets to measure static memory sizes
Signed-off-by: Rhys Mainwaring <rhys.mainwaring@me.com>
2024-12-12 23:16:48 -06:00
..
boards AP_HAL_ESP32: disable define of HAL_ESP32_RCIN on esp32empty 2024-11-23 21:50:51 -06:00
hwdef HAL_ESP32: added esp32s3empty target 2023-12-31 09:55:02 +11:00
profile
targets AP_HAL_ESP32: add targets to measure static memory sizes 2024-12-12 23:16:48 -06:00
utils
AP_HAL_ESP32.h
AnalogIn.cpp AP_HAL_ESP32: re-order initialiser lines so -Werror=reorder will work 2024-11-13 06:40:37 +11:00
AnalogIn.h AP_HAL_ESP32: ADC driver ported to new idf 5.x driver and debugged 2024-10-08 10:29:02 +11:00
DeviceBus.cpp AP_HAL_ESP32: re-order initialiser lines so -Werror=reorder will work 2024-09-24 22:50:28 +10:00
DeviceBus.h AP_HAL_ESP32: idf-v4.4 updates 2023-05-15 10:27:25 +10:00
GPIO.cpp AP_HAL_ESP32: Add GPIO driver and buzzer 2024-10-01 21:06:39 -05:00
GPIO.h AP_HAL_ESP32: Add GPIO driver and buzzer 2024-10-01 21:06:39 -05:00
HAL_ESP32_Class.cpp AP_HAL_ESP32: Add GPIO driver and buzzer 2024-10-01 21:06:39 -05:00
HAL_ESP32_Class.h
HAL_ESP32_Namespace.h HAL_ESP32: implement BinarySemaphore 2024-01-03 07:37:05 +11:00
I2CDevice.cpp AP_HAL_ESP32: re-order initialiser lines so -Werror=reorder will work 2024-09-24 22:50:28 +10:00
I2CDevice.h
OSD.cpp
Profile.cpp
Profile.h
RCInput.cpp AP_HAL_ESP32: enable uart rc 2024-11-19 11:21:09 +11:00
RCInput.h AP_HAL_ESP32: enable uart rc 2024-11-19 11:21:09 +11:00
RCOutput.cpp AP_HAL_ESP32: RCOutput ported to new mcpwm driver 2024-10-27 21:19:29 +11:00
RCOutput.h AP_HAL_ESP32: RCOutput ported to new mcpwm driver 2024-10-27 21:19:29 +11:00
README.md AP_HAL_ESP32: regenerate sdkconfig after sdkconfig.defaults change 2024-12-10 10:32:47 +11:00
README.s3.debug.howto.md AP_HAL_ESP32: esp32s3 debugger readme in both .txt and .md format 2024-03-16 07:16:46 +11:00
RmtSigReader.cpp AP_HAL_ESP32: fix RMT on s3by using channel thats compatible with both . 2024-09-06 11:54:31 +10:00
RmtSigReader.h
SPIDevice.cpp AP_HAL_ESP32: Migration of ESP32 targets from idf 4.4 to 5.3 consisting of: 2024-10-01 09:25:35 +10:00
SPIDevice.h
Scheduler.cpp AP_HAL_ESP32: move scheduler stats display behind SCHEDDEBUG 2024-11-22 12:20:52 -06:00
Scheduler.h AP_HAL_ESP32: format scheduler stack declarations 2024-11-23 13:43:05 -06:00
SdCard.cpp AP_HAL_ESP32: reduce sdcard mount config max_files 2024-12-12 22:54:18 -06:00
SdCard.h
Semaphores.cpp AP_HAL_ESP32: Migration of ESP32 targets from idf 4.4 to 5.3 consisting of: 2024-10-01 09:25:35 +10:00
Semaphores.h HAL_ESP32: implement BinarySemaphore 2024-01-03 07:37:05 +11:00
SoftSigReaderInt.cpp
SoftSigReaderInt.h all: use CLASS_NO_COPY() macro 2022-10-04 11:23:04 +11:00
SoftSigReaderRMT.cpp AP_HAL_ESP32: fix the board names 2022-12-07 18:21:03 +11:00
SoftSigReaderRMT.h
Storage.cpp AP_HAL_ESP32: Console output can be disabled 2022-05-17 09:53:06 +10:00
Storage.h AP_HAL_ESP32: change storage sector size to 128K 2023-09-01 10:34:27 +10:00
UARTDriver.cpp AP_HAL_ESP32: Migration of ESP32 targets from idf 4.4 to 5.3 consisting of: 2024-10-01 09:25:35 +10:00
UARTDriver.h AP_HAL_ESP32: fixed get_baud_rate() 2024-02-29 11:00:40 +11:00
Util.cpp AP_HAL_ESP32: removed heap APIs 2024-11-20 07:32:03 +11:00
Util.h AP_HAL_ESP32: implement new scripting heap APIs 2024-11-20 07:32:03 +11:00
WiFiDriver.cpp AP_HAL_ESP32: Switch WIFI task from FASTCPU to SLOWCPU 2024-10-27 21:16:28 +11:00
WiFiDriver.h AP_HAL_ESP32: moved UART port locking up to AP_HAL 2023-07-12 17:06:02 +10:00
WiFiUdpDriver.cpp AP_HAL_ESP32: Switch WIFI task from FASTCPU to SLOWCPU 2024-10-27 21:16:28 +11:00
WiFiUdpDriver.h AP_HAL_ESP32: Update the WiFi init code to the newer ESP-IDF (4.2+) and 2024-01-07 18:36:08 +11:00
i2c_sw.c AP_HAL_ESP32: Migration of ESP32 targets from idf 4.4 to 5.3 consisting of: 2024-10-01 09:25:35 +10:00
i2c_sw.h
system.cpp HAL_ESP32: use faster div1000 2024-01-07 20:51:55 +11:00

README.md

Ardupilot port to the esp32 series mcu

Building instructions

  1. Build currently tested on linux
  2. Checkout this branch https://github.com/ardupilot/ardupilot/tree/master
  3. Use this to install ardupilot requirements:
Tools/environment_install/install-prereqs-ubuntu.sh

or

Tools/environment_install/install-prereqs-arch.sh
  1. install esp-idf python deps:
# from: https://docs.espressif.com/projects/esp-idf/en/latest/esp32/get-started/linux-setup.html
sudo apt-get install git wget flex bison gperf cmake ninja-build ccache libffi-dev libssl-dev dfu-util
sudo apt-get install python3 python3-pip python3-setuptools
sudo update-alternatives --install /usr/bin/python python /usr/bin/python3 10

#or
sudo pacman -S --needed gcc git make flex bison gperf python-pip cmake ninja ccache dfu-util libusb


cd ardupilot
git submodule update --init --recursive
# ensure the idf exists in modules/esp_idf (supports pre-existing submodules and/or cloning it for you)
./Tools/scripts/esp32_get_idf.sh
cd modules/esp_idf
# use it:
./install.sh
unset IDF_PATH
source ./export.sh
cd ../../..

  1. Configure and run build:
cd ardupilot
./waf configure
./waf configure --board=esp32buzz --debug
[ or ./waf configure --board=esp32diy --debug ]
./waf plane
or
./waf copter
Do NOT use "./waf build", it's broken right now.

TIPS:

this means your 'sdkconfig' file that the IDF relies on is perhaps a bit out of date or out of sync with your IDF. This should not happen, please file a bug if it does!

Changing the sdkconfig.defaults file will cause the sdkconfig to be deleted and regenerated. The sdkconfig will also be regenerated if it is manually deleted.

If you need to change sdkconfig (which will not cause it to be deleted), you can edit sdkconfig manually or to use ninja menuconfig:

So double check you are using the correct IDF version:

cd build/esp32{BOARD}/esp-idf_build
ninja menuconfig

navigate to [save] (tab,tab,tab,enter) press [tab] then [ok] to update the sdkconfig file 'config written' press [enter] to exit this dialog press [tab] then enter on the [exit] box to exit the app done. the 'sdkconfig' file in this folder should have been updated cd ../../../..

If you want to make changes to sdkconfig (sdkconfig is in the build dir) permanent and to commit them back in git, you should edit sdkconfig.defaults manually or use ninja save-defconfig tool after menuconfig and replace sdkconfig.defaults with defconfig.

  1. Recommanded way to flash the firmware :
ESPBAUD=921600 ./waf plane --upload
  1. The espressif esp-idf original project is built at cd build/esp32{BOARD}/esp-idf_build/. You can use your default build system (make or ninja) to build other esp-idf target.

For example : source modules/esp_idf/export.sh cd /home/buzz2/ardupilot/build/esp32buzz/esp-idf_build ninja flash ninja monitor

If you want to specify the port, specify before any command:

ESPTOOL_PORT=/dev/ttyUSB1

If you want to specify a wanted baudrate :

ESPTOOL_BAUD=57600
ESPTOOL_BAUD=921600

You can find more info here : ESPTOOL

For flashing from another machine you need the following files:

build/<board>/esp-idf_build/bootloader/bootloader.bin 
build/<board>/esp-idf_build/ardupilot.bin
build/<board>/esp-idf_build/partition_table/partition-table.bin 

see build//esp-idf_build/flash_project_args (after building) for hints on what arguments to use


OLD

Alternatively, the "./waf plane' build outputs a python command that y can cut-n-paste to flash... buzz found that but using that command with a slower baudrate of 921600 instead of its recommended 2000000 worked for him: cd ardupilot python ./modules/esp_idf/components/esptool_py/esptool/esptool.py --chip esp32 --port /dev/ttyUSB0 --baud 921600 --before default_reset --after hard_reset write_flash -z --flash_mode dio --flash_freq 80m --flash_size detect 0xf000 ./build/esp32buzz/idf-plane/ota_data_initial.bin 0x1000 ./build/esp32buzz/idf-plane/bootloader/bootloader.bin 0x20000 ./build/esp32buzz/idf-plane/arduplane.bin 0x8000 ./build/esp32buzz/idf-plane/partitions.bin

How is compiled Ardupilot on esp32

The ESP-IDF os is compiled as a library to the project.

First waf configure the esp-idf cmake and run a target to get all esp-idf includes.

Waf compile all ardupilot parts in libardusub.a and libArduSub_libs.a (for example for subs, but similarly for planes, copter, rover).

Then waf execute the esp-idf cmake to compile esp-idf itself. And the cmake link the final ardupilot.elf against previous built libraries.

The ardupilot.elf contains all symbol. The cmake provide a stripped version as ardupilot.bin.

Test hardware

Currently esp32 dev board with connected gy-91 10dof sensor board is supported. Pinout (consult UARTDriver.cpp and SPIDevice.cpp for reference):

Uart connecion/s

Internally connected on most devboards, just for reference.

After flashing the esp32 , u can connect with a terminal app of your preference to the same COM port ( eg /dev/ttyUSB0) at a baud rate of 115200, software flow control, 8N1 common uart settings, and get to see the output from hal.console->printf("...") and other console messages.

ESP32 CP2102
GPIO3 UART_TX
GPIO1 UART_RX

GPS aka serial1/uart1:

ESP32 GPS
GPIO17 (TX) GPS (RX)
GPIO16 (RX) GPS (TX)
GND GND
5v Pwr

RC receiver connection:

ESP32 RC Receiver
D4 CPPM-out
GND GND
5v Pwr

I2C connection ( for gps with leds/compass-es/etc onboard, or digital airspeed sensorrs, etc):

ESP32 I2C
GPIO12 SCL
GPIO13 SDA
GND GND
5v Pwr

Compass (using i2c)

  • u need to set the ardupilot params, and connected a GPS that has at least one i2c compass on it.. tested this with a HMC5883 and/or LIS3MDL COMPASS_ENABLE=1 COMPASS_EXTERNAL=1 COMPASS_EXTERN2=1 COMPASS_EXTERN3=1

Analog input/s

2nd column is the ardupilot _PIN number and matches what u specify in the third column of HAL_ESP32_ADC_PINS #define elsewhere :

if HAL_ESP32_ADC_PINS == HAL_ESP32_ADC_PINS_OPTION1:

ESP32 AnalogIn
GPIO35 1
GPIO34 2
GPIO39 3
GPIO36 4
GND GND

eg, set ardupilot params like this: RSSI_ANA_PIN = 3 - and it will attempt to read the adc value on GPIO39 for rssi data BATT_CURR_PIN = 2 - and it will attempt to read the adc value on GPIO34 for battery current BATT_VOLT_PIN = 1 - and it will attempt to read the adc value on GPIO35 for battery voltage ARSPD_PIN = 4 - and it will attempt to read the adc value on GPIO36 for analog airspeed data

if HAL_ESP32_ADC_PINS == HAL_ESP32_ADC_PINS_OPTION2:

ESP32 AnalogIn
GPIO35 35
GPIO34 34
GPIO39 39
GPIO36 36
GND GND

eg, set ardupilot params like this: RSSI_ANA_PIN = 39 - and it will attempt to read the adc value on GPIO39 for rssi data BATT_CURR_PIN = 34 - and it will attempt to read the adc value on GPIO34 for battery current BATT_VOLT_PIN = 35 - and it will attempt to read the adc value on GPIO35 for battery voltage ARSPD_PIN = 36 - and it will attempt to read the adc value on GPIO36 for analog airspeed data

RC Servo connection/s

BuzzsPcbHeader ESP32 RCOUT TYPICAL
servo1 PIN25 SERVO-OUT1 AILERON
servo2 PIN27 SERVO-OUT2 ELEVATOR
servo3 PIN33 SERVO-OUT3 THROTTLE
servo4 PIN32 SERVO-OUT4 RUDDER
servo5 PIN22 SERVO-OUT5 avail
servo6 PIN21 SERVO-OUT6 avail

If you don't get any PWM output on any/some/one of the pins while ardupilot is running, be sure you have set all of these params: //ail SERVO1_FUNCTION = 4 // ele SERVO2_FUNCTION = 19 //thr SERVO3_FUNCTION = 70 //rud SERVO4_FUNCTION = 21 // for now make it a copy of ail, in case u have two ail servos and no Y lead SERVO5_FUNCTION = 4 // for now make it a copy of ail,for testing etc. SERVO6_FUNCTION = 4 // right now, we only have 6 channels of output due to pin limitations..

(If the RTC source is not required, then Pin12 32K_XP and Pin13 32K_XN can be used as digital GPIOs, so we do, and it works)

GY-91 connection

This is how buzz has the GY91 wired ATM, but its probable that connecting external 3.3V supply to the VIN is better than connecting a 5V supply, and then the 3V3 pin on the sensor board can be left disconnected, as it's actually 3.3v out from the LDO onboard.

ESP32 GY-91
GND GND
5V VIN
3.3V 3V3
IO5 NCS
IO23 SDA
IO19 SDO/SAO
IO18 SCL
IO26 CSB

debugger connection

Currently used debugger is called a 'TIAO USB Multi Protocol Adapter' which is a red PCB with a bunch of jtag headers on it and doesn't cost too much. https://www.amazon.com/TIAO-Multi-Protocol-Adapter-JTAG-Serial/dp/B0156ML5LY

ESP32 20PINJTAG
D12 TDI(PIN5)
D13 SWCLK/TCLK(PIN9)
D14 SWDIO/TMS(PIN7)
D15 SWO/TDO(PIN13)
3.3v -- ( powered via usb, not programmer, or PIN1)
GND GND(any of PIN4,PIN6,or PIN8 , all GND)
EN TRST(PIN3)

SDCARD connection

ESP32 SDCARD
D2 D0/PIN7
D14 CLK/PIN5
D15 CMD/PIN2
GND Vss1/PIN3 and Vss2/PIN6
3.3v Vcc/PIN4

Current progress

Main tasks

  • Build system
  • Scheduler and semaphores
  • SPI driver
  • WiFi driver ( connect with MissionPlanner or mavproxy on TCP to host: 192.168.4.1 and port: 5760 )
  • Uart driver ( non-mavlink console messages and ardupilot Serial0 with mavlink or gps )
  • RCIN driver ( PPMSUM INPUT on GPIO4 )
  • GPS testing/integration ( Serial ublox GPS, as ardupilot SERIAL0 on RX2/TX2 aka GPIO16 and GPIO17 )
  • PWM output driver
  • RCOUT driver ( 4 channels working right now)
  • I2C driver
  • Storage
  • OTA update of the fw
  • SdCard
  • Mavlink on console/usb as well as wifi.
  • UDP mavlink over wifi
  • TCP mavlink over wifi (choose tcp or udp at compile time , not both)
  • parameter storage in a esp32 flash partition area
  • Custom boards build
  • Perfomance optimization
  • SdCard mounts but ardupilot logging to SD does not
  • waf can upload to your board with --upload now
  • PWM output driver works, but it appears that throttle supression when disarmed does not.
  • AnalogIn driver - partial progress not really tested or documented
  • Finish waf commands to build seamlessly and wrap all function of esp-idf without command voodoo

Known Bugs

  • slow but functional wifi implementation for tcp & udp.

Future development

  • Automatic board header listing
  • UDP mavlink over wifi does not automatically stream to client/s when they connect to wifi AP.
  • Fix parameters loading in wifi both udp and tcp (slow and not reliable)
  • Pin remapping via parameters
  • GPIO driver
  • DShot driver
  • 4way pass
  • esc telemetry
  • ws2812b ws2815 led strip
  • INA219 driver
  • GSD
  • Buzzer

analysing a 'coredump' from the uart...

Save the log where coredump appears to a file, i'll call it core.txt ================= CORE DUMP START =================

================= CORE DUMP END =================== cat > core.txt ... ctrl-d The CORE DUMP START and CORE DUMP END lines must not be included in core dump text file.

cp build/esp32buzz/idf-plane/arduplane.elf . espcoredump.py dbg_corefile arduplane.elf -c core.txt -t b64

.. this will give u a 'gdb' of the core dump, from which you can type.. bt ..short for 'backtrace of current thread' or .. thread apply all bt full ..short for 'backtrace of all threads' or .. info var .. which lists "All global and static variable names". info locals .. lists "All global and static variable names".. info args ..to list "Arguments of the current stack frame" (names and values)..

other things to sue.. print varname ptype varname select-frame 5

ctrl-c to exit gdb

storage tips - not generally needed, as u can update params with missionplanenner over mavlink etc.

determine offset and size of 'storage' partition in flash

parttool.py --partition-table-file partitions.csv get_partition_info --partition-name storage

0x3e0000 0x20000

then backup ardupilot 'storage' area (its a partition, see partitions.csv) to a file on disk:

esptool.py read_flash 0x3e0000 0x20000 storage.bin

restore the storage.bin to your device... basiclly the same flash command as used in esp32.py but different offset and file:

esptool.py --chip esp32 --baud 921600 --before default_reset --after hard_reset write_flash -z --flash_mode dio --flash_freq 80m --flash_size detect 0x3e0000 storage.bin

example log of boot messages:

[22:51:20:226] ets Jun 8 2016 00:22:57 [22:51:20:228] [22:51:20:228] rst:0x1 (POWERON_RESET),boot:0x13 (SPI_FAST_FLASH_BOOT) [22:51:20:234] configsip: 0, SPIWP:0xee [22:51:20:236] clk_drv:0x00,q_drv:0x00,d_drv:0x00,cs0_drv:0x00,hd_drv:0x00,wp_drv:0x00 [22:51:20:242] mode:DIO, clock div:1 [22:51:20:244] load:0x3fff0018,len:4 [22:51:20:248] load:0x3fff001c,len:6784 [22:51:20:248] ho 0 tail 12 room 4 [22:51:20:252] load:0x40078000,len:12116 [22:51:20:252] load:0x40080400,len:7420 [22:51:20:255] entry 0x40080784 [22:51:20:260] <0x1b>[0;32mI (30) boot: ESP-IDF v3.3-beta2-152-geed94b87e 2nd stage bootloader<0x1b>[0m [22:51:20:267] <0x1b>[0;32mI (30) boot: compile time 21:12:33<0x1b>[0m [22:51:20:269] <0x1b>[0;32mI (40) boot: Enabling RNG early entropy source...<0x1b>[0m [22:51:20:275] <0x1b>[0;32mI (40) qio_mode: Enabling QIO for flash chip WinBond<0x1b>[0m [22:51:20:281] <0x1b>[0;32mI (41) boot: SPI Speed : 80MHz<0x1b>[0m [22:51:20:286] <0x1b>[0;32mI (46) boot: SPI Mode : QIO<0x1b>[0m [22:51:20:290] <0x1b>[0;32mI (50) boot: SPI Flash Size : 4MB<0x1b>[0m [22:51:20:294] <0x1b>[0;32mI (54) boot: Partition Table:<0x1b>[0m [22:51:20:297] <0x1b>[0;32mI (57) boot: ## Label Usage Type ST Offset Length<0x1b>[0m [22:51:20:303] <0x1b>[0;32mI (65) boot: 0 nvs WiFi data 01 02 00009000 00006000<0x1b>[0m [22:51:20:309] <0x1b>[0;32mI (72) boot: 1 phy_init RF data 01 01 0000f000 00001000<0x1b>[0m [22:51:20:317] <0x1b>[0;32mI (79) boot: 2 factory factory app 00 00 00010000 00300000<0x1b>[0m [22:51:20:324] <0x1b>[0;32mI (87) boot: 3 storage unknown 45 00 00310000 00040000<0x1b>[0m [22:51:20:334] <0x1b>[0;32mI (94) boot: 4 coredump Unknown data 01 03 00350000 00010000<0x1b>[0m [22:51:20:339] <0x1b>[0;32mI (102) boot: End of partition table<0x1b>[0m [22:51:20:343] <0x1b>[0;32mI (106) esp_image: segment 0: paddr=0x00010020 vaddr=0x3f400020 size=0x367d4 (223188) map<0x1b>[0m [22:51:20:400] <0x1b>[0;32mI (174) esp_image: segment 1: paddr=0x000467fc vaddr=0x3ffb0000 size=0x030fc ( 12540) load<0x1b>[0m [22:51:20:409] <0x1b>[0;32mI (178) esp_image: segment 2: paddr=0x00049900 vaddr=0x40080000 size=0x00400 ( 1024) load<0x1b>[0m [22:51:20:418] <0x1b>[0;32mI (181) esp_image: segment 3: paddr=0x00049d08 vaddr=0x40080400 size=0x06308 ( 25352) load<0x1b>[0m [22:51:20:427] <0x1b>[0;32mI (198) esp_image: segment 4: paddr=0x00050018 vaddr=0x400d0018 size=0x128738 (1214264) map<0x1b>[0m [22:51:20:746] <0x1b>[0;32mI (520) esp_image: segment 5: paddr=0x00178758 vaddr=0x40086708 size=0x0b3fc ( 46076) load<0x1b>[0m [22:51:20:771] <0x1b>[0;32mI (545) boot: Loaded app from partition at offset 0x10000<0x1b>[0m [22:51:20:778] <0x1b>[0;32mI (546) boot: Disabling RNG early entropy source...<0x1b>[0m [22:51:20:788] <0x1b>[0;32mI (546) cpu_start: Pro cpu up.<0x1b>[0m [22:51:20:788] <0x1b>[0;32mI (550) cpu_start: Application information:<0x1b>[0m [22:51:20:796] <0x1b>[0;32mI (554) cpu_start: Project name: arduplane<0x1b>[0m [22:51:20:802] <0x1b>[0;32mI (560) cpu_start: App version: APMrover2-3.1.0-10435-g68525424<0x1b>[0m [22:51:20:806] <0x1b>[0;32mI (567) cpu_start: Compile time: Apr 5 2019 22:41:05<0x1b>[0m [22:51:20:811] <0x1b>[0;32mI (573) cpu_start: ELF file SHA256: 3fcbd70b13aca47c...<0x1b>[0m [22:51:20:816] <0x1b>[0;32mI (579) cpu_start: ESP-IDF: v3.3-beta2-152-geed94b87e<0x1b>[0m [22:51:20:822] <0x1b>[0;32mI (585) cpu_start: Starting app cpu, entry point is 0x400811d4<0x1b>[0m [22:51:20:829] <0x1b>[0;32mI (0) cpu_start: App cpu up.<0x1b>[0m [22:51:20:833] <0x1b>[0;32mI (596) heap_init: Initializing. RAM available for dynamic allocation:<0x1b>[0m [22:51:20:840] <0x1b>[0;32mI (602) heap_init: At 3FFAE6E0 len 00001920 (6 KiB): DRAM<0x1b>[0m [22:51:20:846] <0x1b>[0;32mI (609) heap_init: At 3FFC1FF8 len 0001E008 (120 KiB): DRAM<0x1b>[0m [22:51:20:852] <0x1b>[0;32mI (615) heap_init: At 3FFE0440 len 00003AE0 (14 KiB): D/IRAM<0x1b>[0m [22:51:20:858] <0x1b>[0;32mI (621) heap_init: At 3FFE4350 len 0001BCB0 (111 KiB): D/IRAM<0x1b>[0m [22:51:20:865] <0x1b>[0;32mI (628) heap_init: At 40091B04 len 0000E4FC (57 KiB): IRAM<0x1b>[0m [22:51:20:871] <0x1b>[0;32mI (634) cpu_start: Pro cpu start user code<0x1b>[0m [22:51:20:880] <0x1b>[0;32mI (206) cpu_start: Starting scheduler on PRO CPU.<0x1b>[0m [22:51:20:885] <0x1b>[0;32mI (0) cpu_start: Starting scheduler on APP CPU.<0x1b>[0m [22:51:20:904] I (21) wifi: wifi driver task: 3ffce8ec, prio:23, stack:3584, core=0 [22:51:20:910] I (253) wifi: wifi firmware version: 9b1a13b [22:51:20:915] I (253) wifi: config NVS flash: disabled [22:51:20:922] I (255) wifi: config nano formating: disabled [22:51:20:923] <0x1b>[0;32mI (259) system_api: Base MAC address is not set, read default base MAC address from BLK0 of EFUSE<0x1b>[0m [22:51:20:931] <0x1b>[0;32mI (269) system_api: Base MAC address is not set, read default base MAC address from BLK0 of EFUSE<0x1b>[0m [22:51:20:941] I (279) wifi: Init dynamic tx buffer num: 16 [22:51:20:946] I (282) wifi: Init data frame dynamic rx buffer num: 16 [22:51:20:951] I (287) wifi: Init management frame dynamic rx buffer num: 16 [22:51:20:955] I (293) wifi: Init management short buffer num: 32 [22:51:20:960] I (297) wifi: Init static rx buffer size: 1600 [22:51:20:964] I (301) wifi: Init static rx buffer num: 2 [22:51:20:969] I (305) wifi: Init dynamic rx buffer num: 16 [22:51:21:701] <0x1b>[0;32mI (1049) phy: phy_version: 4100, 6fa5e27, Jan 25 2019, 17:02:06, 0, 0<0x1b>[0m [22:51:21:710] I (1050) wifi: mode : softAP (24:0a:c4:32:48:f5) [22:51:21:712] I (1051) wifi: Init max length of beacon: 752/752 [22:51:21:716] I (1054) wifi: Init max length of beacon: 752/752 [22:51:22:023] spi device constructed SPI:BMP280:0:2 [22:51:22:041] MS4525: no sensor found [22:51:22:044] spi device constructed SPI:MPU9250:0:1 [22:51:23:878] Sensor failure: INS: unable to initialise driver [22:51:26:878] Sensor failure: INS: unable to initialise driver