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Micropython based UART to TCP bridge for ESP8266/ESP32 (including SoftUART support)

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micropython ESP8266/ESP32/Raspberry Pi Pico UART to TCP bridge

A micropython server running on an ESP8266/ESP32/Raspberry Pi Pico which acts as a bridge between UART and TCP (LAN/WLAN).

Installation

Follow steps to install esptool and micropython for ESP8266/ESP32.

For RPi Pico, follow Getting started with Raspberry Pi Pico.

Then...

  • clone me, oh please, clone me!
$ git clone [email protected]/tiagocoutinho/us2n

Configuration

  • Create a file called us2n.json with a json configuration for Hardware UART:
import json

config = {
    "name": "SuperESP32",
    "verbose": False,
    "wlan": {
        "sta": {
            "essid": "<name of your access point>",
            "password": "<password of your access point>",
        },
    },
    "bridges": [
        {
            "tcp": {
                "bind": ["", 8000],
            },
            "uart": {
                "port": 1,
                "baudrate": 9600,
                "bits": 8,
                "parity": None,
                "stop": 1,
            },
        },
    ],
}

with open('us2n.json', 'w') as f:
    json.dump(config, f)

Note: if you are running us2n on an ESP32, specifying rx and tx pins is supported on hardware UART.

  • Or, create a file called us2n.json with a json configuration for SoftUART:
import json

config = {
    "name": "SuperESP32",
    "verbose": False,
    "wlan": {
        "sta": {
            "essid": "<name of your access point>",
            "password": "<password of your access point>",
        },
    },
    "bridges": [
        {
            "tcp": {
                "bind": ["", 8000],
            },
            "uart": {
                "type": "SoftUART",
                "tx": 12,
                "rx": 14,
                "timeout": 20,
                "timeout_char": 10,
                "port": 1,
                "baudrate": 9600,
                "bits": 8,
                "parity": None,
                "stop": 1,
            },
        },
    ],
}

with open('us2n.json', 'w') as f:
    json.dump(config, f)

Password authentication

You can also enable password authentication on connection by adding this under a bridge:


"auth": {
    "password": "<password prompted on connection>",
},

SSL

SSL can be enabled by adding this under a bridge:


"ssl": {
    "server_hostname": "<hostname>",
    "key": "/server.key.der"
    "cert": "/server.crt.der",
    "cadata": "/client.crt.der"
}

The keys and certificates can be generated via gencerts.sh. hostname should match the hostname that socat connects to and this also needs to match the CN of the server certificate.

This is tested on the RPi Pico. There are indications that the arguments to ussl.wrap_socket may vary depending on micropython implementation, as these are not the arguments that are documented elsewhere; instead of key and cert, keyfile and certfile might be needed on other systems. key, cert and cadata are loaded from files, no such handling excepts for other argument names

So, look up and experiment with what arguments that ussl.wrap_socket has on your particular micropython implementation.

Running

  • Include in your main.py:
import us2n
server = us2n.server()
server.serve_forever()

An example main.py for the RPi Pico is included as picomain.py, which waits for 5 seconds and unless BOOTSEL is pressed, the server is started.

  • Load the newly created us2n.json to your MCU (ESP8266/ESP32/RPi Pico)

  • Load us2n.py to your MCU

  • Load main.py to your MCU

  • Press reset

The server board should be ready to accept requests in a few seconds.

Usage

Now, if, for example, your MCU UART is connected to a SCPI device, you can, from any PC:

$ nc <MCU Wifi IP> 8000
*IDN?
ACME Instruments, C4, 122393-2, 10-0-1
  • Using socat to bridge back to a tty
$ socat pty,link=$HOME/dev/ttyV0,b9600,waitslave tcp:<MCU Wifi IP>:8000
  • Connect to the virtual tty with miniterm.py
$ miniterm.py dev/ttyV0 9600

Or use screen!

$ screen dev/ttyV0 9600

That's all folks! Unless you want SSL:

SSL usage

You can test the connection via openssl's s_client:

$ openssl s_client -connect <MCU CN>:8000 -cert client.pem -CAfile server.crt

But to get a proper tty, use socat:

$ socat pty,link=$HOME/dev/ttyV0,b9600,waitslave OPENSSL-CONNECT:<MCU CN>:8000,cert=client.pem,cafile=server.crt

Then use miniterm.py or screen as before.

Note that the IP/hostname that you use to connect to the MCU needs to match the server certificate's CN, although this can be turned off by adding ,verify=0.

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Micropython based UART to TCP bridge for ESP8266/ESP32 (including SoftUART support)

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