ESPTerm - ESP8266 terminal emulator. Branches: [master] patches, [work] next release
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Ondřej Hruška 5c57ea3b28 Logging is now toggleable and updates are postponed if socket is busy 7 years ago
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README.md

ESPTerm

ESP8266 Wireless Terminal Emulator project

This project is based on SpriteTM's esphttpd and libesphttpd, forked by MightyPork to MightyPork/esphttpd and MightyPork/libesphttpd respectively.

Those forks include improvements not available upstream.

Goals

The project aims to be a wireless terminal emulator that'll work with the likes of Arduino, AVR, PIC, STM8, STM32, mbed etc, anything with UART, even your USB-serial dongle will work.

Connect it to the master device via UART and use the terminal on the built-in web page for debug logging, remote control etc. It works like a simple LCD screen, in a way.

It lets you make simple UI (manipulating the screen with ANSI sequences) and receive input from buttons on the webpage (and keyboard on PC). There is some rudimentary touch input as well.

The screen size is adjustable up to 25x80 (via a special control sequence) and uses 16 standard colors (8 dark and 8 bright). Both default size and colors can be configured in the settings.

Project status

A little buggy, but mostly okay! There are many features and fixes planned, but it should be fairly usable already.

  • We have a working 2-way terminal (UART->ESP->Browser and vice versa) with real-time update via websocket.

    This means that what you type in the browser is sent to UART0 and what's received on UART0 is processed by the ANSI parser and applied to the internal screen buffer. You'll also immediately see the changes in your browser. There's a filter in the way that discards garbage characters (like unicode and most ASCII outside 32-126).

    For a quick test, try connecting the UART0 Rx and Tx with a piece of wire to make a loopback interface. NOTE: Use the bare module, not something like LoLin or NodeMCU with a FTDI, it'll interfere. You should then directly see what you type & can even try some ANSI sequences, right from the browser.

  • All ANSI sequences that make sense, as well as control codes like Backspace and CR / LF are implemented. Set colors with your usual \e[31;1m etc (see Wikipedia). \e is the ASCII code 27 (ESC).

    Arrow keys generate ANSI sequences, ESC sends literal ASCII code 27 etc. Almost everything can be input straight from the browser.

  • Buttons pressed in the browser UI send ASCII codes 1..5. Mouse clicks are sent as \e[<row>;<col>M.

  • There's a built-in WiFi config page and a Help page with a list of all supported ANSI sequences and other details.

Development

Installation for development

  • Clone this project with --recursive, or afterwards run git submodule init and git submodule update.

  • Install esp-open-sdk and build it with make toolchain esptool libhal STANDALONE=n.

    Make sure the xtensa-lx106-elf/bin folder is on $PATH.

  • Install esptool (it's in the Arch community repo and on AUR, too)

  • Set up udev rules so you have access to ttyUSB0 without root, eg:

    KERNEL=="tty[A-Z]*[0-9]*", GROUP="uucp", MODE="0666"
    
  • Install Ragel if you wish to make modifications to the ANSI sequence parser. If not, comment out its call in build_parser.sh. The .rl file is the actual source, the .c is generated.

  • Install Ruby and then the sass package with gem install sass (or try some other implementation, such as sassc)

  • Make sure your esphttpdconfig.mk is set up properly - link to the SDK etc.

The IoT SDK is now included in the project due to problems with obtaining the correct version and patching it. It works with version 1.5.2, any newer seems to be incompatible. If you get it working with a newer SDK, a PR is more than welcome!

Web resources

The web resources are in html_orig. To prepare for a build, run build_web.sh, which packs them and copies over to html. The compression and minification is handled by scripts in libesphttpd, specifically it runs yuicompressor on js and css and gzip or heatshrink on the other files. The html folder is then embedded in the firmware image.

It's kind of tricky to develop the web resources locally; you might want to try the "split image" Makefile option, then you can flash just the html portion with make htmlflash. I haven't tried this.

For local development, use the server.sh script in html_orig. It's possible to talk to API of a running ESP8266 from here, if you configure _env.php with its IP.

Flashing

The Makefile should automatically build the parser and web resources for you when you run make. Sometimes it does not, particularly with make -B. Try just plain make. You can always run those build scripts manually, too.

To flash, just run make flash.