The only keyboard event callback library that works everywhere, even when used through an SSH connection (hence the name).
It works with headless computers and servers, or for example inside Windows Subsystem for Linux (WSL 2). One good use case is controlling Raspberry Pi based robots or RC cars through SSH. Note that this library can also be used locally without an SSH connection.
It does not depend on X server, uinput, root access (sudo) or any external dependencies.
Supports asyncio and sequential/concurrent callback modes. For Python 3.6+.
Documentation - Github source - PyPI - Reference -
Installation:
pip install sshkeyboard
Simple example to fire events when a key is pressed or released.
esc
key ends listening by default:
from sshkeyboard import listen_keyboard
def press(key):
print(f"'{key}' pressed")
def release(key):
print(f"'{key}' released")
listen_keyboard(
on_press=press,
on_release=release,
)
Output:
$ python example.py
'a' pressed
'a' released
The sshkeyboard library works without X server and uinput.
On Unix based systems (such as Linux, macOS) it works by parsing characters from sys.stdin. This is done with fcntl and termios standard library modules.
On Windows msvcrt standard library module is used to read user input. The Windows support is still new, so please create an issue if you run into problems.
This behaviour allows it to work where other libraries like pynput or keyboard do not work, but it comes with some limitations, mainly:
- Holding multiple keys down at the same time does not work, the library releases the previous keys when a new one is pressed. Releasing keys also happens after a short delay, and some key presses can get lost if the same key gets spammed fast.
- Some keys do not write to
sys.stdin
when pressed, such asCtrl
,Shift
,Caps Lock
,Alt
andWindows
/Command
/Super
key. That is why this library does not attempt to parse those even if they could be technically be parsed in some cases
Normally this library allows on_press
and on_release
callbacks to be run
concurrently. This means that by running:
import time
from sshkeyboard import listen_keyboard
def press(key):
print(f"'{key}' pressed")
time.sleep(3)
print(f"'{key}' slept")
listen_keyboard(on_press=press)
and pressing "a"
, "s"
and "d"
keys will log:
'a' pressed
's' pressed
'd' pressed
'a' slept
's' slept
'd' slept
But sometimes you don't want to allow the callbacks to overlap, then
you should set sequential
parameter to True
:
# ...
listen_keyboard(
on_press=press,
sequential=True,
)
Then pressing "a"
, "s"
and "d"
keys will log:
'a' pressed
'a' slept
's' pressed
's' slept
'd' pressed
'd' slept
You can also use asynchronous functions as on_press
/ on_release
callbacks
with listen_keyboard
:
import asyncio
from sshkeyboard import listen_keyboard
async def press(key):
print(f"'{key}' pressed")
await asyncio.sleep(3)
print(f"'{key}' slept")
listen_keyboard(on_press=press)
NOTE remember to use
await asyncio.sleep(...)
in async callbacks instead oftime.sleep(...)
or the timings will fail:
listen_keyboard
also supports mixing asynchronous and concurrent callbacks:
import asyncio
import time
from sshkeyboard import listen_keyboard
async def press(key):
print(f"'{key}' pressed")
await asyncio.sleep(3)
print(f"'{key}' press slept")
def release(key):
print(f"'{key}' relased")
time.sleep(3)
print(f"'{key}' release slept")
listen_keyboard(
on_press=press,
on_release=release,
)
Here pressing "a"
and "s"
will log:
'a' pressed
'a' relased
's' pressed
's' relased
'a' press slept
's' press slept
'a' release slept
's' release slept
And with sequential=True
:
# ...
listen_keyboard(
on_press=press,
on_release=release,
sequential=True,
)
will log:
'a' pressed
'a' press slept
'a' relased
'a' release slept
's' pressed
's' press slept
's' relased
's' release slept
NOTE remember to use
await asyncio.sleep(...)
in async callbacks instead oftime.sleep(...)
or the timings will fail:
You can change the key that ends the listening by giving until
parameter,
which defaults to "esc"
:
# ...
listen_keyboard(
on_press=press,
until="space",
)
You also can manually stop listening by calling stop_listening()
from the
callback or from some other function:
from sshkeyboard import listen_keyboard, stop_listening
def press(key):
print(f"'{key}' pressed")
if key == "z":
stop_listening()
listen_keyboard(on_press=press)
until
can be also set to None
. This means that listening ends only with
stop_listening()
or if an error has been raised.
If some keys do not seem to register correctly, try turning the debug mode on. This will add logs if some keys are skipped intentionally:
# ...
listen_keyboard(
on_press=press,
debug=True,
)
If one key press causes multiple on_press
/ on_release
callbacks or if
releasing happens too slowly, you can try to tweak the default timing
parameters:
# ...
listen_keyboard(
on_press=press,
delay_second_char=0.75,
delay_other_chars=0.05,
)
Check out the full reference for more functions and parameters such as:
lower
parametersleep
parametermax_thread_pool_workers
parameterlisten_keyboard_manual
function
Direct links to functions:
This sections explains how to build the documentation and how to run the pre-commit script locally. This helps if you want to create a pull request or if you just want to try things out.
Building the documentations allows you to build all of the files served on the documentation site locally.
The pre-commit script handles running tests, formatting and linting before each Git commit. These same checks also run automatically on Github Actions.
Start by cloning this library, and change directory to the project root:
git clone [email protected]:ollipal/sshkeyboard.git
cd sshkeyboard
Optionally, create and activate a virtual environment at the root of the
project (you might need to use python3
keyword instead of python
):
python -m venv .env
source .env/bin/activate
(Later you can deactivate the virtual environment with: deactivate
)
To build the documentation or run the pre-commit script locally, you need to install the development dependencies:
pip install -r dev-requirements.txt
To build the documentation locally, first change into docs/
directory:
cd docs
Then to build the documentation, call:
make html
Now you should have a new docs/build/
directory, and you can open
<your-clone-path>/sshkeyboard/docs/build/html/index.html
from your browser.
You can force the rebuild by running:
rm -rf build/ && make html
You can change the documentation content by changing README.md
or files from
src/
or docs/source/
. If you are mainly changing contents from
docs/source/
, you can enable automatic re-building by running:
sphinx-autobuild ./source/ ./build/html/
You can run the tests (tox, pytest), formatting (black, isort) and linting (pflake8, pep8-naming, codespell, markdownlint) simply by executing:
./pre-commit
Now if you want to automatically run these when you call git commit
, copy
the script into .git/hooks/
directory:
cp pre-commit .git/hooks
NOTE: this process does not run
markdownlint
by default as it requires Ruby to be installed. If you want to runmarkdownlint
locally as well, install Ruby and install markdown lint withgem install mdl -v 0.11.0
. Then frompre-commit
changeRUN_MDL=false
toRUN_MDL=true
. (You need to copy the file again into.git/hooks/
if you did that earlier)
The other keyboard libraries work by reading proper keycodes from the system.
This means that they usually require either X server or uinput, so they do not work over SSH. But this means they do not have the same limitations as this library.
They usually can also support more features such as pressing the keys instead of just reacting to user input.
I have good experiences from these libraries: