Programming ESP µC - Setup and program NodeMCU esp8266 using Visual Studio Code extension for Arduino
Repository
https://github.com/esp8266/Arduino
https://github.com/Microsoft/vscode-arduino
What Will I Learn?
- You will learn how to setup and configure Arduino VSCode extension for esp8266
- You will learn how to check NodeMCU esp8266 specification directly. Useful if you want to avoid buying the wrong device.
- You will learn program NodeMCU esp8266 using Arduino framework
- You will learn how to do OTA update in esp8266 using Arduino VSCode extension
Requirements
- Linux base OS
- Visual Studio Code
- Any esp8266 development board, especially NodeMCU
Difficulty
- Intermediate
Description
In this ESP video tutorial, we take our first steps into setup an effective environment for developing a firmware for esp8266 using Visual Studio Code extension for Arduino. We also take a look on how to check the board specification directly to see if there is a defects in the device we bought. At the end of this tutorial we try to upload our firmware over WiFi connection.
🤔 What is esp8266?
ESP8266 is a microcontroller chip for IoT use case. It base on Xtensa architecture which is pretty configurable and can operate on low power environment. There is many esp8266 development board out there but in this tutorial, I use NodeMCU v3 which is made by LoLin. When we bought it, we need to check if the board is accoding to the specification that is written in the board. To do that, we need to use esptool which will get the info about the flash memory, mac address, and the chip type.
When we try to execute the esptool.py flash_id
in the Linux base OS, we will have a problems accessing the USB port. This is because the USB port we are connected was registered in tty
or dialout
system groups which only root
user allowed to read/write into the port. To change the access premission, we need to execute chmod 666 /dev/<connected USB port>
to allow read/write into that port. Another way is adding us into dialout user by using usermod
which will give us permanent access to the USB serial port even if we try to restart the OS. If you have more problems with esptool that are specific to Linux, you can consult it here.
🛠 Configuring Arduino Visual Studio Code extension
Arduino VSCode extension is Visual Studio Code extension to make using Arduino framework easy to develop, build, deploy and debug with a rich set of functionalities like autocompletion and integrated into Arduino debugging. To use vscode-arduino extension, first we need to install Arduino toolchain or IDE. Since we use Linux base OS (in my case is Ubuntu), we can install it using snap package manager by:
snap install arduino-mhall119 --classic
That's will install Arduino IDE for v1.8.5
. There is a note that the vscode-arduino only support Arduino IDE v1.6.x
to v1.8.6
and not later. Also, the Windows Store's version of the Arduino IDE is not supported because of the sandbox environment that the application runs in.
After we have install both Arduino IDE and Arduino VSCode extension, we need to configure the VSCode extension to point out where is the Arduino IDE located and this is mandatory if you use Windows version. We also need to add 3rd package url which point out to the index board of Arduino core for ESP8266 WiFi chip. In summary, we need to add this into our VSCode settings (settings.json):
{
"arduino.path": "/snap/arduino-mhall119/current",
"arduino.additionalUrls": "http://arduino.esp8266.com/stable/package_esp8266com_index.json"
}
Then, we can install esp8266 in the Arduino Board Manager 👇
Now we can open/create a new project and after we have open/create a new project, we need to set the board configuration to use NodeMCU v1 board. You can choose depend on the board you are using. In my case, though NodeMCU v3 LoLin is not same as NodeMCU v1/v2, we can still use NodeMCU v1 configuration because the only differences is in the pin layout and the usb2serial chip it use.
This will generate .vscode/arduino.json
file and it should look like this:
{
"sketch": "<YOUR SKETCH NAME>.ino",
"port": "",
"board": "esp8266:esp8266:nodemcuv2",
"configuration": "CpuFrequency=80,VTable=flash,FlashSize=4M1M,LwIPVariant=v2mss536,Debug=Disabled,DebugLevel=None____,FlashErase=none,UploadSpeed=115200"
}
🛰 OTA Update
Sometimes it can be quite painful to plug the device into USB port everytime we want to upload the sketch. Luckily, there is a way to upload it via wireless connection which called as OTA update. OTA (Over the Air) update is the process of loading the firmware to device using Wi-Fi connection rather than a serial port. Such functionality became extremely useful in case of limited or no physical access to the module. To enable OTA, we need to upload a firmware for basic OTA from Arduino example. After we have enable it, we also need to edit the arduino.json
to use the IP Address of the device instead of the USB port.
{
"sketch": "Blink.ino",
"port": "192.168.100.4",
"board": "esp8266:esp8266:nodemcuv2",
"configuration": "CpuFrequency=80,VTable=flash,FlashSize=4M1M,LwIPVariant=v2mss536,Debug=Disabled,DebugLevel=None____,FlashErase=none,UploadSpeed=115200"
}
After we have edit it, the port status in the VSCode will show the IP Address instead of the USB port 👉
As long as the device is power on and connected to the WiFi, we can upload our sketch anywhere as long as the PC/Laptop connected to the same Access Point. The power supply of 3~5V with 1A or more is more than enough to power this device. In my case for NodeMCU v3 LoLin, for the sake of simplicity, I power it using powerbank with output 5V and the current is 1A.
Hello @drensor,
Thank you for your contribution to the video tutorial. I enjoyed watching your video because I can see that you put effort in doing a good presentation. Here are some advice:
Try to make your tutorial more structured in the video teaching. This is often the most difficult part for a lecturer. You need to think from the learners point of view and create a very easy outline for them to follow from the beginning to the end or else they lose interest.
Take the students step by step in a clear manner so that they understand the concepts behind the steps that lead to the next one.
For the coding, it would be good if you can make the font sizes bigger because I had to squint my eyes to see the codes.
I look forward to your next video.
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