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# Flashing guide
Table of contents:
* [Warning](#warning)
* [Tools needed](#tools-needed)
* [Opening the lamp, to expose the PCB](#opening-the-lamp-to-expose-the-pcb)
* [Solder wires to the board](#solder-wires-to-the-board)
* [Connect the wires to your serial to USB adapter](#connect-the-wires-to-your-serial-to-usb-adapter)
* [When you only have one GND pin on your USB Adapter](#when-you-only-have-one-gnd-pin-on-your-usb-adapter)
* [Make a backup of the current firmware](#make-a-backup-of-the-current-firmware)
* [How to restore the backed up firmware](#how-to-restore-the-backed-up-firmware)
* [Flash new ESPHome firmware](#flash-new-esphome-firmware)
* [Troubleshooting flash](#troubleshooting-flash)
## Warning
We have writen these instructions with care, but we will give absolutely no
warranty. Perhaps you will destroy your lamp and your computer.
## Tools needed
* Allen key (2mm, 5/64") or torx (T8) screw driver
* Soldering Iron
* A serial to USB adapter (for example FTDI) that can provide 3.3V RX/TX signals
* Some wires
* Optional: sticky tape, hot glue gun, magnifying glass
## Opening the lamp, to expose the PCB
*Tip: you can click on all images from below to view them in full size.*
Remove the rubber pads from the botton of the lamp, to get access to 4
screws that attach the bottom to the rest of the lamp.
Note that you don't have to remove these pads fully. Once you can access
the screws, you've gone far enough.
Unbolt the 4 screws which were hidden under the rubber pads.
Detach the bottom from the rest of the lamp, exposing the PCB. This might
take a bit of force. Just pull it off bit by bit, until it pops loose.
## Solder wires to the board
The wires will be connected to the debug pads that are shown in the following image.
Many of the serial to USB adapter have some header pins to which you can
connect the wires of a device (no soldering required). Therefore, it might be
useful to use dupont wire. Cut off one end, strip the wire, tin the wire and
solder it to the board.
*Note: Whether to use male or female dupont wires depends on how you want to connect
the serial adapter. In this example, I have used male wires, so I could plug them
into a breadbord.*
Solder the wires to the `RX`, `TX`, `GND` and `GPIO0` debug pads.
*Note: The board has a debug pad that exposes 3.3V. Do not use this pad to power
the board from your serial adapter. Always power the lamp using its own power supply.*
A few tips:
- Depending on the quality of your eyes, you might want to use a magnifying glass for the
soldering work. Use one that is mounted on a stand, or you will quickly be left wishing
that you could grow a third arm.
- You could use some sticky tape to fixate the cables before soldering.
- When you want to keep the wires attached after flashing the new firmware (e.g. for
serial logging or for future firmware flashing), then you might want to apply some
hot glue to fixate the wires. This prevents the wires from breaking off, due to
excessive movement.
## Connect the wires to your serial to USB adapter
Make sure that your adapter uses 3.3V for the pns that you will connect to the lamp.
Some of these adapters allow you to switch between 3.3V and 5V using a switch or a jumper.
Do not use an adapter that only provides 5V output. Reason for this, is that the ESP32 chip
works at 3.3V. I have seen the chips accept 5V serial input, but I am not sure if they are
actually 5V tolerant. Better safe than sorry in such case!
The wires must be connected as follows:
| Soldering point| Serial USB Adapter name |
| -------------- |:------------------------:|
| GND | GND |
| TX | RX |
| RX | TX (3.3V) |
| GPIO0 | GND |
To be able to flash the lamp, `GPIO0` must be connected to ground while the lamp boots up.
Therefore, connect these wires *before* plugging in the lamp's power supply.
Flashing will *not* work if you connect these wires *after* the lamp has already been booted up.
## When you only have one GND pin on your USB Adapter
If your USB Adapter does not have multiple `GND` pins, then you'll have to
find another way to attach `GPIO0` to ground. Some options:
- **Use a breadbord**, so you can connect the USB Adapter `GND` pin to a row on
the bread bord, and connect the `GND` and `GPIO0` wires of the lamp's
board to that same row. The rest of this guide will show this method.
[View example by @mmakaay](images/13_connect_to_serial_to_usb_adapter.jpg).
- **Solder a button on the board** that connects `GPIO0` to `GND` when pressed.
Then you can hold down this button while plugging in the lamp's power
supply. After booting up, you can release the button (the serial console
will also mention that flash mode is now enabled). This is not the most
practical solution for most people (since only one such flash operation is
needed, from then on OTA - Over The Air - updates are possible), but it
was a great help to me during the initial reverse engineering and firmware
development.
[View example by @mmakaay](images/13_connect_to_serial_with_button.jpg) or
[another example by @edwinschoonhoven](images/13_connect_to_serial_with_button_alternative.jpg).
- **Manually hold a wire connected** to both a GND surface (e.g. the silver pad
on the left of the board) and the `GPIO0` debug pad, while plugging in the
power supply. After booting, the wire can be removed. This is very fiddly
way of doing it (a third hand would be very welcome with this), but it can
be done.
- **Temporarily solder a lead between `GND` and `GPIO0` on the board**,
making `GPIO0` pulled to ground permanently. It is a bit less flexible than
some other options, but if you only need to do the initial backup and firmware
flash of the lamp, then this can be all that you need. Remove the lead after
flashing is done, otherwise the lamp won't boot in normal mode.
[View example by @erwinschoonhoven](images/13_connect_to_serial_with_soldered_gnd.jpg).
In the following images, you will see the first solution, using a breadboard.
In close up:
You can now connect the serial to USB adapter to you computer. Pay special attention
to the cross-over of the TX/RX pair (TX connects to RX and vice versa).
Start the [esphome-flasher tool](https://github.com/esphome/esphome-flasher) and
select the COM port to use. Then click on "View logs".
Now, plug in the lamp's power supply to boot up the lamp.
Because GPIO0 is connected to GND, the device should start up in flashing mode.
If all went well, the log output in esphome-flasher looks somewhat like this:
## Make a backup of the current firmware
Backing up the firmware makes it possible to revert to the original firmware,
in case you have problems with the ESPHome firmware. The backup can be
created using "esptool". Installation instructures can be found here:
https://github.com/espressif/esptool/blob/master/README.md#installation--dependencies
Here's an example on how to backup the original firmware from Linux.
First, unplug your lamp's power supply, then start the esptool read_flash command:
```
python esptool.py -p /dev/ttyUSB0 read_flash 0x0 0x400000 original-firmware.bin
```
`/dev/ttyUSB0` is the port of the USB adaper on Linux. You can find what
port is used by the adapter by running `dmesg` after plugging in the USB
device. On Windows this is often `COM1`, `COM2` or `COM3`.
Now plug back in the power supply. The output of esptool should now show that it
connects to the lamp and downloads the firmware from it.
**Caution**: You will find the WLAN SSID and Password of the last used
WiFi network in this file. Therefore, keep this backup in a safe place.
## How to restore the backed up firmware
In case you need to rollback to the lamp's original firmware at some
point, here's an example of how to restore the original firmware from
Windows, by fully flashing it back onto the lamp.
First, unplug your lamp's power supply, then start the esptool write_flash command:
```
python.exe .\esptool.py --chip esp32 --port COM3 --baud 115200 write_flash 0x00 original-firmware.bin
```
Make sure that `GPIO0` is connected to GND and plug in the power supply.
The output of esptool should now show that it connects to the lamp and
uploads the firmware to it.
Be patient after the upload reaches 100%. The output is silent while
esptool tool is verifying that the firmware was uploaded correctly.
After the firmware upload completes, unplug the power, disconnect `GPIO0`
from GND and reconnect the power supply to boot into the restored firmware.
## Flash new ESPHome firmware
Setup an ESPHome Project (see [README.md](../README.md)), compile the firmware
for the lamp and download the `firmware.bin` file to the device to which
the serial adapter is connected.
You can flash the lamp using esphome or esptool. I would strongly recommend using
the [esphome-flasher](https://github.com/esphome/esphome-flasher) tool. This is
a very easy to use GUI utility app for flashing ESPHome devices and for viewing
serial console logging.
- In the app, select the COM port of your serial adapter.
- Then select the firmware.bin file to flash onto the lamp.
- Power up the lamp with `GPIO0` connected to GND.
- Click the "Flash ESP" button to flash the firmware.
If all went well, the final log output in esphome-flasher looks somewhat like this:
If you want to flash with esptool, you can use the following command.
*Note: This is probably not correct to get the lamp fully operational. This
does not update partition table and the bootloader, which are also needed to
get a functioning ESPHome device. Unless you know exactly what you're doing
with esptool here, I recommend to use the esphome-flasher instead.*
```
python.exe .\esptool.py --chip esp32 --port COM3 --baud 115200 write_flash 0x1000
```
*The following is a bit more in the direction of the required command
for flashing. If you have some definitive info on how to handle this best,
please let me know.*
```
python esptool.py --chip esp32 \
-p /dev/ttyUSB0 --baud 115200 \
--before default_reset --after hard_reset \
write_flash -z --flash_mode dout --flash_freq 40m --flash_size detect \
0x1000 bootloader_dout_40m.bin \
0x8000 partitions.bin \
0xe000 boot_app0.bin \
0x10000 ~/Downloads/firmware.bin
```
After flashing, power down the lamp, disconnect `GPIO0` from GND and
reconnect the power to boot into the new ESPHome firmware.
The lamp should now be operational using the new firmware.
From here on, it is possible to flash the lamp OTA (over the air, which
means that the firmware is uploaded over WiFi) from ESPHome. Therefore, it
is now time to tuck away or remove those soldered wires.
Because I want to keep them around for future use, I tuck them away, making
sure that the connectors don't touch each other or the board.
The bottom cover can now be put back on. The lamp is ready for use.
## Troubleshooting flash
If you have **A fatal error occurred: MD5 of file does not match data in flash!**,
then make sure you are powering the board using the lamp's own power adapter.
We've seen these errors when trying to power the board using the 3.3V debug pad.
After seeing this error, user @tabacha was able to successfully flash his
lamp using the regular power adapter.
< [Configuration guide](configuration.md) | [Index](../README.md) | [Known issues](known_issues.md) >