10 KiB
r n s h
Shell over Reticulum
rnsh
is a utility written in Python that facilitates shell
sessions over Reticulum networks.
It is based on the rnx
utility that ships with Reticulum and
aims to provide a similar experience to SSH.
Contents
Reminder: Alpha Software
These early versions will be buggy. There will sometimes be major breaking changes to the command line parameters between releases. There will sometimes be breaking changes in the protocol between releases. Use at your own peril!
Recent Changes
v0.0.10
- Rate limit window change events to prevent saturation of transport
- Tweaked some loop timers to improve CPU utilization
v0.0.9
- Switch to a new packet-based protocol
- Bug fixes and dependency updates
v0.0.8
- Improved test suite exposed several issues with the handling of command line arguments which are now fixed
- Fixed a race condition that would cause remote characters to be lost intermittently when running remote commands that finish immediately.
- Added automated testing that actually spins up a random listener and initiator in a private Reticulum network and passes data between them, uncovering more issues which are now fixed.
- Fixed (hopefully) an issue where
rnsh
doesn't know what version it is.
v0.0.7
Added -A
command line option. This listener option causes the
remote command line to be appended to the arguments list of the
launched program. This allows the listener to jail connections
to a particular executable while still allowing parameters.
v0.0.6
Minor improvements in transport efficiency
v0.0.5
Remote command line and pipe compatibility
Command line options have changed somewhat to allow the initiator
to supply a command line. This allows rnsh
to function similarly
to SSH. You can pipe into or out of rnsh
to send input through
remote commands or remote command output through other commands.
This behavior can be blocked on the listener with the -C
option.
When the initiator does not supply a command, the listener uses a default command specified on its command line. If a default command is not specified, the listener falls back to the shell of the user it is running under.
Quickstart
Tested (thus far) on Python 3.11 macOS 13.1 ARM64. Should run on Python 3.6+ on Linux or Unix. WSL probably works. Cygwin might work, too.
- Activate a virtualenv
pip3 install rnsh
- Or from a
whl
release,pip3 install /path/to/rnsh-0.0.1-py3-none-any.whl
- Or from a
- Configure Reticulum interfaces, check with
rnstatus
- Ready to run
rnsh
. The options are shown below.
Example: Shell server
Setup
Before running the listener or initiator, you'll need to get the listener destination hash and the initiator identity hash.
# On listener
rnsh -l -p
# On initiator
rnsh -p
Note: if you are using a non-default identity or service name, be
sure to supply these options with -p
as the identity and
destination hashes will change depending on these settings.
Listener
- Listening for default service name ("default").
- Using user's default Reticulum config dir (~/.reticulum).
- Using default identity ($RNSCONFIGDIR/storage/identities/rnsh).
- Allowing remote identity
6d47805065fa470852cf1b1ef417a1ac
to connect. - Launching
/bin/zsh
on authorized connect.
rnsh -l -a 6d47805065fa470852cf1b1ef417a1ac -- /bin/zsh
Initiator
- Connecting to default service name ("default").
- Using user's default Reticulum config dir (~/.reticulum).
- Using default identity ($RNSCONFIGDIR/storage/identities/rnsh).
- Connecting to destination
a5f72aefc2cb3cdba648f73f77c4e887
rnsh a5f72aefc2cb3cdba648f73f77c4e887
Options
Usage:
rnsh [--config <configdir>] [-i <identityfile>] [-s <service_name>] [-l] -p
rnsh -l [--config <configfile>] [-i <identityfile>] [-s <service_name>]
[-v... | -q...] [-b <period>] (-n | -a <identity_hash> [-a <identity_hash>] ...)
[-A | -C] [[--] <program> [<arg> ...]]
rnsh [--config <configfile>] [-i <identityfile>] [-s <service_name>]
[-v... | -q...] [-N] [-m] [-w <timeout>] <destination_hash>
[[--] <program> [<arg> ...]]
rnsh -h
rnsh --version
Options:
--config DIR Alternate Reticulum config directory to use
-i FILE --identity FILE Specific identity file to use
-s NAME --service NAME Listen on/connect to specific service name if not default
-p --print-identity Print identity information and exit
-l --listen Listen (server) mode. If supplied, <program> <arg>...will
be used as the command line when the initiator does not
provide one or when remote command is disabled. If
<program> is not supplied, the default shell of the
user rnsh is running under will be used.
-b --announce PERIOD Announce on startup and every PERIOD seconds
Specify 0 for PERIOD to announce on startup only.
-a HASH --allowed HASH Specify identities allowed to connect
-n --no-auth Disable authentication
-N --no-id Disable identify on connect
-A --remote-command-as-args Concatenate remote command to argument list of <program>/shell
-C --no-remote-command Disable executing command line from remote
-m --mirror Client returns with code of remote process
-w TIME --timeout TIME Specify client connect and request timeout in seconds
-q --quiet Increase quietness (move level up), multiple increases effect
DEFAULT LOGGING LEVEL
CRITICAL (silent)
Initiator -> ERROR
WARNING
Listener -> INFO
DEBUG (insane)
-v --verbose Increase verbosity (move level down), multiple increases effect
--version Show version
-h --help Show this help
How it works
Listeners
Listener instances are the servers. Each listener is configured with an RNS identity, and a service name. Together, RNS makes these into a destination hash that can be used to connect to your listener.
Multiple listeners can use the same identity. As long as they are given different service names. They will have different destination hashes and not conflict.
Listeners must be configured with a command line to run (at least at this time). The identity hash string is set in the environment variable RNS_REMOTE_IDENTITY for use in child programs.
Listeners are set up using the -l
flag.
Initiators
Initiators are the clients. Each initiator has an identity hash which is used as an authentication mechanism on Reticulum. You'll need this value to configure the listener to allow your connection. It is possible to run the server without authentication, but hopefully it's obvious that this is an advanced use case.
To get the identity hash, use the -p
flag.
With the initiator identity set up in the listener command
line, and with the listener identity copied (you'll need to
do -p
on the listener side, too), you can run the
initiator.
I recommend staying pretty vanilla to start with and
trying /bin/zsh
or whatever your favorite shell is these
days. The shell should start in login mode. Ideally it
works just like an ssh
shell session.
Protocol
The protocol is build on top of the Reticulum Request
and
Packet
APIs.
- After the initiator identifies on the connection, it enters a request loop.
- When idle, the initiator will periodically poll the listener.
- When the initiator has data available (i.e the user typed some characters), the initiator will send that data to the listener in a request, and the listener will respond with any data available from the listener.
- When the listener has new data available, it notifies the initiator using a notification packet. The initiator then makes a request to the listener to fetch the data.
Roadmap
- Plan a better roadmap
- ?
- Keep my day job
TODO
Initial versionPip package with command-line utility supportPublish to PyPIImprove signal handlingMake it scriptable (currently requires a tty)Protocol improvements (throughput!)Documentation improvements- Test on several platforms
- Fix issues that come up with testing
- Fix issues with running
rnsh
in a binary pipeline, i.e. piping the output oftar
overrsh
. - Beta release
- Test and fix more issues
- V1.0
- Enhancement Ideas
authorized_keys
mode similar to SSH- Git over
rnsh
(git remote helper) - Sliding window acknowledgements for improved throughput
Miscellaneous
By piping into/out of rnsh
, it should be possible to transfer
files using the same method discussed in
this article.
I tested it just now and it doesn't work right. There's probably some
subtle garbling of the data at one end of the stream or the other.