Difference between revisions of "Whirlybird"

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m (→‎Firmware: variation notes and typos fix)
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</pre>
 
</pre>
  
While the device enumerates as USB and has capacity to facilitate serial communications, it is not really feasible with the constant reboot cycle. However connecting to the <code>TXD0</code> pin to the <code>Rx</code> of a USB/Serial UART converter the following can be captured. Additionally holding the ESP32 in reset and monitoring the UART you can capture the following by briefly releasing the reset and then re-enabling reset, othrewise you will get a continuous flood of the same messages at <code>115200 baud</code>.
+
While the device enumerates with USB connected and has the capacity to facilitate serial communications, it is not really feasible with the constant reboot cycle. There are two slight variations of the board, the ones with a populated micro SD slot mostly have this issue, and the others do not. However connecting to the <code>TXD0</code> pin to the <code>Rx</code> of a USB/Serial UART converter the following can be captured. Additionally holding the ESP32 in reset and monitoring the UART you can capture the following by briefly releasing the reset and then re-enabling reset, otherwise you will get a continuous flood of the same messages at <code>115200 baud</code>.
 
<pre>
 
<pre>
 
ESP-ROM:esp32s3-20210327
 
ESP-ROM:esp32s3-20210327
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</pre>
 
</pre>
  
Some of the boards do properly enter "Boot Mode" which is done by connected <code>GPIO0</code> to ground. This can easily be done by using a jumper wire from a through hole header that exposes both <code>GPIO0</code> and ground and pressing a reset button immediately below it. Alternatively this can be achieved by using a wired to pressed to the bottom right most module pin and the metal RF shield on top of the module while connecting to USB to power on.
+
Further experimentation is indicating it may be related to a fault in the thru-hole GPI0 as directly shorting <code>GPIO0</code> (Pin 27) to ground can result in the following.
 +
<pre>
 +
ESP-ROM:esp32s3-20210327
 +
Build:Mar 27 2021
 +
rst:0x1 (POWERON),boot:0x36 (SPI_DOWNLOAD_BOOT)
 +
wait spi download
 +
ESP-ROM:esp32s3-20210327
 +
Build:Mar 27 2021
 +
rst:0x15 (USB_UART_CHIP_RESET),boot:0x36 (SPI_DOWNLOAD_BOOT)
 +
Saved PC:0x400507ae
 +
wait spi download
 +
</pre>
 +
 
 +
Attempting to use <code>esptool.py</code> generates a <code>Connecting...</code> message and then the serial output generates and updated message.
 +
<pre>
 +
ESP-ROM:esp32s3-20210327
 +
Build:Mar 27 2021
 +
rst:0x15 (USB_UART_CHIP_RESET),boot:0x36 (SPI_DOWNLOAD_BOOT)
 +
Saved PC:0x400507ae
 +
wait spi download
 +
</pre>
 +
 
 +
However this seems to hang the USB connection and nothing further happens until it times out.
 +
 
 +
Some of the boards do properly enter "Boot Mode" which is done by connecting <code>GPIO0</code> to ground. This can easily be done by using a jumper wire from a through hole header that exposes both <code>GPIO0</code> and ground and pressing a reset button immediately below it. Alternatively this can be achieved by using a wire pressed to the bottom right most module pin and the metal RF shield on top of the module while connecting USB to power on.
  
 
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</pre>
 
</pre>
  
There's various ways you can now access the device, including over WiFi once configured. I highly recommend <code>rshell</code> which provides ability to copy and move files as well as directly write and debug code using REPL. If you don't pass any arguments it will automatically attempt to connect, if you have multiple devices you can also specify the connection parameters. Here the built in USB/Serial interface connected via <code>D+/D-</code> is being used.
+
There's various ways you can now access the device, including over WiFi once configured. I highly recommend <code>rshell</code> which provides the ability to copy and move files as well as directly write and debug code using REPL. If you don't pass any arguments it will automatically attempt to connect, if you have multiple devices you can also specify the connection parameters. Here the built in USB/Serial interface is connected via <code>D+/D-</code> pins.
  
 
<pre>
 
<pre>

Revision as of 17:54, 29 September 2024

[EXPERIMENTAL] Direction Finding (DF)

This is an exercise that started with up-cycling some e-waste that contains 32 RGBW LEDs and an ESP32-S3-WROOM2. There is a myriad of other components presumably intended to interface with other control circuits.

The primary objective here is not to reverse engineer its previously intended purpose, rather invent a new purpose. The objective is to utilize the outer ring of 24 blinkies as a 360 degree direction indicator. The ESP32 module, which appears to never have been flashed with functioning firmware, is erased and flashed with a current Octal SPI build of Micropython.

For the most part the components on the PCB are not directly connected to the ESP32. Rather there is a number of connectors they are wired to for an alternative "main" processor. This includes the addressable RGBWs that are some variant of SK6812RGBW. Additionally for some reason even though these are individually addressable in series of over a hundred, they are broken in to two independent chains of 24 spaced in an outer circular pattern and 8 more arranged inside that circle.

The board is likely designed as some sort of prototype of an evolution of a production product. It is unknown if it was intended to be a technical evaluation of various features, in ongoing development or a one off experiment. I have ended up with several dozen of these, there are many unknown and some number of issues. The majority of them have thus far had an issue with enabling "Boot Mode" and power on only to continually restart themselves.

ESP32-S3-WROOM2

Pin Layout

ESP32-S3-WROOM2 Pin Layout.png


Firmware

When connecting to a linux machine, the following can be seen via dmesg | tail.

new full-speed USB device number 99 using xhci_hcd
New USB device found, idVendor=303a, idProduct=1001, bcdDevice= 1.01
New USB device strings: Mfr=1, Product=2, SerialNumber=3
Product: USB JTAG/serial debug unit
Manufacturer: Espressif
SerialNumber: 68:B6:B3:##:##:##
cdc_acm 3-2:1.0: ttyACM0: USB ACM device

While the device enumerates with USB connected and has the capacity to facilitate serial communications, it is not really feasible with the constant reboot cycle. There are two slight variations of the board, the ones with a populated micro SD slot mostly have this issue, and the others do not. However connecting to the TXD0 pin to the Rx of a USB/Serial UART converter the following can be captured. Additionally holding the ESP32 in reset and monitoring the UART you can capture the following by briefly releasing the reset and then re-enabling reset, otherwise you will get a continuous flood of the same messages at 115200 baud.

ESP-ROM:esp32s3-20210327
Build:Mar 27 2021
rst:0x1 (POWERON),boot:0x8 (SPI_FAST_FLASH_BOOT)
invalid header: 0xa5ff005a
invalid header: 0xa5ff005a
invalid header: 0xa5ff005a
invalid header: 0xa5ff005a

Further experimentation is indicating it may be related to a fault in the thru-hole GPI0 as directly shorting GPIO0 (Pin 27) to ground can result in the following.

ESP-ROM:esp32s3-20210327
Build:Mar 27 2021
rst:0x1 (POWERON),boot:0x36 (SPI_DOWNLOAD_BOOT)
wait spi download
ESP-ROM:esp32s3-20210327
Build:Mar 27 2021
rst:0x15 (USB_UART_CHIP_RESET),boot:0x36 (SPI_DOWNLOAD_BOOT)
Saved PC:0x400507ae
wait spi download

Attempting to use esptool.py generates a Connecting... message and then the serial output generates and updated message.

ESP-ROM:esp32s3-20210327
Build:Mar 27 2021
rst:0x15 (USB_UART_CHIP_RESET),boot:0x36 (SPI_DOWNLOAD_BOOT)
Saved PC:0x400507ae
wait spi download

However this seems to hang the USB connection and nothing further happens until it times out.

Some of the boards do properly enter "Boot Mode" which is done by connecting GPIO0 to ground. This can easily be done by using a jumper wire from a through hole header that exposes both GPIO0 and ground and pressing a reset button immediately below it. Alternatively this can be achieved by using a wire pressed to the bottom right most module pin and the metal RF shield on top of the module while connecting USB to power on.

esptool.py -p /dev/ttyACM0 -b 115200 erase_flash
esptool.py v4.8.0
Serial port /dev/ttyACM0
Connecting...
Detecting chip type... ESP32-S3
Chip is ESP32-S3 (QFN56) (revision v0.1)
Features: WiFi, BLE, Embedded PSRAM 8MB (AP_1v8)
Crystal is 40MHz
MAC: 68:b6:b3:3c:f4:24
Uploading stub...
Running stub...
Stub running...
Erasing flash (this may take a while)...
Chip erase completed successfully in 70.8s
Hard resetting via RTS pin...

Note in this instance RTS is not connected, however the device remains in "Boot Mode" and the following action can be performed.

esptool.py -p /dev/ttyACM0 -b 1500000 write_flash -z 0 ESP32_GENERIC_S3-SPIRAM_OCT-20240920-v1.24.0-preview.335.gb08ddbba5.bin 
esptool.py v4.8.0
Serial port /dev/ttyACM0
Connecting...
Detecting chip type... ESP32-S3
Chip is ESP32-S3 (QFN56) (revision v0.1)
Features: WiFi, BLE, Embedded PSRAM 8MB (AP_1v8)
Crystal is 40MHz
MAC: 68:b6:b3:3c:f4:24
Uploading stub...
Running stub...
Stub running...
Changing baud rate to 1500000
Changed.
Configuring flash size...
Flash will be erased from 0x00000000 to 0x00197fff...
Compressed 1668096 bytes to 1089606...
Wrote 1668096 bytes (1089606 compressed) at 0x00000000 in 18.7 seconds (effective 714.0 kbit/s)...
Hash of data verified.

Leaving...
Hard resetting via RTS pin...

Note that in this case without RTS the device must be manually power cycled or reset to load the new firmware. Now you should see a different enumeration via dmesg.

new full-speed USB device number 41 using xhci_hcd
New USB device found, idVendor=303a, idProduct=4001, bcdDevice= 1.00
New USB device strings: Mfr=1, Product=2, SerialNumber=3
Product: Espressif Device
Manufacturer: Espressif Systems
SerialNumber: 123456
cdc_acm 3-2:1.0: ttyACM0: USB ACM device

Monitoring TXD0 the following is received.

ESP-ROM:esp32s3-20210327
Build:Mar 27 2021
rst:0x1 (POWERON),boot:0x2a (SPI_FAST_FLASH_BOOT)
SPIWP:0xee
Octal Flash Mode Enabled
For OPI Flash, Use Default Flash Boot Mode
mode:SLOW_RD, clock div:1
load:0x3fce3820,len:0x105c
load:0x403c9700,len:0x4
load:0x403c9704,len:0xbd8
load:0x403cc700,len:0x2e34
entry 0x403c989c
MicroPython v1.24.0-preview.335.gb08ddbba5 on 2024-09-20; Generic ESP32S3 module with Octal-SPIRAM with ESP32S3
Type "help()" for more information.
>>> 

You can also now use the USB interface, with something like screen /dev/ttyACM0 115200. If successful you should be greeted with blank output. Pressing Enter should generate a Micropython prompt >>> and pressing Ctrl+D generates the following.

MPY: soft reboot
MicroPython v1.24.0-preview.335.gb08ddbba5 on 2024-09-20; Generic ESP32S3 module with Octal-SPIRAM with ESP32S3
Type "help()" for more information.
>>> 

There's various ways you can now access the device, including over WiFi once configured. I highly recommend rshell which provides the ability to copy and move files as well as directly write and debug code using REPL. If you don't pass any arguments it will automatically attempt to connect, if you have multiple devices you can also specify the connection parameters. Here the built in USB/Serial interface is connected via D+/D- pins.

rshell -p /dev/ttyACM0 -b 115200
Using buffer-size of 256
Connecting to /dev/ttyACM0 (buffer-size 256)...
Trying to connect to REPL  connected
Retrieving sysname ... esp32
Testing if ubinascii.unhexlify exists ... Y
Retrieving root directories ... /boot.py/ /main.py/
Setting time ... Sep 26, 2024 09:42:01
Evaluating board_name ... pyboard
Retrieving time epoch ... Jan 01, 2000
Welcome to rshell. Use Control-D (or the exit command) to exit rshell.

Once launched, any running code may be halted, entering repl will give an interactive Micropython prompt. Entering Ctrl+D will do a soft reset and any code configured to automatically start such as main.py will then run and you will see any output such as from print() in the terminal.