Ondřej Hruška
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7 years ago | |
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esp_iot_sdk_v1.5.2 | 7 years ago | |
front-end@9ae5e928ac | 7 years ago | |
include | 7 years ago | |
libesphttpd@d6651ca0d1 | 7 years ago | |
rel-tpl | 7 years ago | |
release | 7 years ago | |
user | 7 years ago | |
.gitignore | 7 years ago | |
.gitmodules | 7 years ago | |
CMakeLists.txt | 7 years ago | |
LICENSE.txt | 7 years ago | |
Makefile | 7 years ago | |
Makefile.combined | 9 years ago | |
Makefile.ota | 9 years ago | |
Makefile.separate | 9 years ago | |
README.md | 7 years ago | |
build_parser.sh | 7 years ago | |
build_web.sh | 7 years ago | |
esphttpdconfig.mk.example | 7 years ago | |
get_version.c | 7 years ago | |
prepro.sh | 7 years ago | |
ship.sh | 7 years ago | |
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README.md
ESPTerm
ESPTerm is a VT100-like terminal emulator running on the ESP8266 WiFi chip.
Fig 1: Breadboard adapter developed for ESPTerm
ESPTerm passes most of VTTEST test cases, making it functionally comparable to eg. gnome-terminal, terminator, konsole, GtkTerm or PuTTY. ESPTerm is capable of running Midnight Commander through agetty, including full mouse support, provided agetty is made to believe it's Xterm, which shows ESPTerm is compatible with ncurses.
In addition to control sequences that manipulate the terminal or user input, there is a set of simple networking commands for device-to-device message exchange and interacting with remote servers.
To see what escape sequences are supported, check out this annotated Xterm manual page which was used for reference, or the built-in help page (online demo)
The terminal screen can be accessed using any web browser, even on a phone or tablet. It works with ESP-01, ESP-01S, ESP-12 and likely many other modules.
With ESPTerm, you can add remote access via WiFi to any embeded project, all you need is UART and some imagination!
Try it online
You can try the web user interface here: espterm.github.io
The demo is almost identical to the real thing, except, of course, it doesn't do much without the emulator backend that runs on the ESP8266. The web version will be updated to match this repository after each minor release (and sometimes in between for testing; the version currently being show-cased can be read on the About page of the demo).
Browser support
Use the above linked online demo to verify compatibility with your browser.
To our knowledge, ESPTerm works with:
- Google Chrome (desktop, mobile)
- Firefox (desktop, mobile not tested)
- Safari (desktop, mobile)
- Chromium
- Opera
- Brave
- Konqueror
It does not work with:
- Microsoft Edge - runs, but is extremely laggy
- Internet Explorer (any version) - crashes, missing JS features
- Opera Mini - crashes, missing JS and CSS features
- Blackberry browser - not tested, but unlikely
- Safari on old iOS versions - missing features
- WebOS browser
- Old Android Browser (before 4.4?) - not tested, likely missing JS features
Main features
- Almost complete VT102 emulation with some extras from Xterm, eg.
- Screen size up to 80x25 (the limit can be modified when compiling from source)
- All standard text styles and 16 colors supported
- Full UTF-8 support, alternate character sets
- Standard mouse tracking modes
- You can dynamically set screen title, button labels...
- Networking commands
- Command for sending a message to another ESPTerm
- API endpoint (
/api/v1/msg
) for receiving messages sent e.g. from a script on PC, web browser or CURL - Command for requesting remote servers and getting back response headers and/or body
- Web Terminal Interface
- Real-time screen update via WebSocket
- Mouse and keyboard input, works also on mobile
- 5 optional buttons for quick commands
- Text file upload tool with adjustable delays and line endings
- Built-in help page (demo) with basic troubleshooting and command reference
- User-friendly comprehensive WiFi configuration (Demo: WiFi, network config)
- Static IP, DHCP, channel selection, power
- SSID search utility for finding your existing network
- Basic security features
- Possibility to password-lock parts of the web interface
- Admin password for some sensitive operations (can be changed!)
- Configurable AP password & Hidden attribute
- Advanced settings storage
- Stored in Flash
- Seamlesly updated and usually backwards compatible in minor releases
- Settings can be saved as defaults and later easily restored (ideal e.g. for classroom use, saving
good tested settings before giving the module to students)
Bugs? Ideas?
To ask any questions or discuss new features you'd like to see added, it's best to use the ESPTerm Dev mailing list
Subscribe to the mailing list to also receive new release announcements.
If you found a bug (that happens alot!), please submit it to our bug tracker. We also use it to track planned ideas. If you don't want to create a GitHub account for that, just send it to the mailing list.
Running ESPTerm
To run ESPTerm on your ESP8266, either build it yourself from source using xtensa-lx106-elf-gcc
(and the included Makefile), or download pre-built binaries from the GitHub releases section.
Flash the binaries using esptool.
Pins
- Pin GPIO2 is used for debug messages at 115200 baud, 8 bit, no parity.
- Pins Rx and Tx are used for the main communication UART, parameters of which can be set on the system config page. Connect your USB-serial dongle or application microcontroller here.
Setup
- When flashed for the first time, ESPTerm wipes any possible previous WiFi configuration, because it implements its own WiFi config manager with many additional features.
- It should start in AP mode, the default SSID being
TERM-MACADR
withMACADR
being three unique bytes from the MAC address / Device ID as ASCII hex. - Connect to the AP via a smartphone or laptop and configure WiFi as desired. If a captive portal page does not open, try 192.168.4.1 in your web browser.
Rescue from messed up config
It can happen that some changes to the WiFi or network config make the module inaccessible.
- To re-enable the built-in AP, hold the BOOT (GPIO0 -> GND) button for about 1 s, until the blue LED starts flashing. Then quickly release the button.
- To reset all settings to defaults, hold the button a couple seconds until the LED flashes rapidly, then release it.
- You can cancel this wipe/reset operation (when triggered by accident) by pressing Reset or disconnecting the power supply.
Config banks
ESPTerm has two config "files", one for defaults and one for the currently used settings. In the case of the terminal config, there is also a third, temporary file for changes done via ESC commands.
When you get your settings just right, you can store them as defaults, which can then be at any time restored by holding the BOOT (GPIO0) button. You can do this on the System Settings page. This asks for an "admin password", which can (and should!) be changed. This password can't be easily recovered when forgotten.
You can also restore everything (except the saved defaults) to "factory defaults", there is a button for this on the System Settings page. Those are the initial values you would get after a clean install.
Research resources
Developing the terminal emulator was complicated by the information being scattered across many places and the existing implementations I used for reference often got some details wrong or didn't implement certain features at all. Xterm proved to be by far the most complete implementation.
A great tool for checking my code has proven to be VTTTEST. ESPTerm passes most of the tests on the main page and some additional Xterm specific ones, like Mouse Tracking.
Here is a list of useful VT100 emulation resources I've collected for reference.
Development
ESPTerm's firmware is written in C and is based on SpriteTM's libesphttpd
http server library forked to
MightyPork/libesphttpd. This fork includes various improvements and changes required by the project.
Installation for development
- Clone this project with
--recursive
, or afterwards rungit submodule init
andgit submodule update
. - Install esp-open-sdk and build it with
make toolchain esptool libhal STANDALONE=n
. Make sure thextensa-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 dependencies of the front-end submodule (
yarn install
in the front-end folder, installed PHP) - 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 the front-end
git submodule. To prepare the web resources for a build,
run make web
. The resulting files are copied to html/
. 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
(more details in the front-end repo's readme).
It's possible to talk to the API endpoints of a running ESP8266 from a page served by your local server
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
.
The web resources are normally no re-built, because the build process is quite slow. To manually rebuild them,
run make web
before make
.
To flash, just run make flash
. It will use parameters you setup in the esphttpdconfig.mk
file.