shpool
is a service that enables session persistence by allowing the
creation of named shell sessions owned by shpool
so that the session
is not lost if the connection drops. shpool
can be thought of as a lighter
weight alternative to tmux
or GNU screen
. While tmux
and screen
take over
the whole terminal and provide window splitting and tiling features, shpool
only provides persistent sessions. The biggest advantage of this approach is
that shpool
does not break native scrollback or copy-paste.
Run
cargo install shpool
curl -fLo "${XDG_CONFIG_HOME:-$HOME/.config}/systemd/user/shpool.service" --create-dirs https://raw.githubusercontent.com/shell-pool/shpool/master/systemd/shpool.service
sed -i "s|/usr|$HOME/.cargo|" "${XDG_CONFIG_HOME:-$HOME/.config}/systemd/user/shpool.service"
curl -fLo "${XDG_CONFIG_HOME:-$HOME/.config}/systemd/user/shpool.socket" --create-dirs https://raw.githubusercontent.com/shell-pool/shpool/master/systemd/shpool.socket
systemctl --user enable shpool
systemctl --user start shpool
loginctl enable-linger
To install without setting up systemd, run
cargo install shpool
If you don't use systemd, you can either port the systemd/shpool.service
file to your own init system and use that, or you can use autodaemonization
mode to tell shpool to just fork a daemon process on the fly if it notices
one is not missing. Autodaemonization is enabled by default, so you don't
need to do anything special to use it, though you can control its behavior
with the nodaemonize
config option and the -d/-D
command line switches.
Generally shpool
is used to provide persistent sessions when
sshing in to a remote host. To do so, shpool
must be installed
on the remote host. No extra software is required on the client.
After installing and setting up, the typical usage pattern
is to ssh into the host you have installed shpool on, then create
a new named session by running shpool attach main
. Here main
is the name of the session. You'll want a separate named session
for each terminal you use to connect to your remote host. If your
connection drops or becomes stuck, you can ssh back into the remote
host and re-attach to the same named session by running shpool attach main
again.
If your terminal gets stuck and you forcibly close the window, you
might find that shpool
still think a terminal is connected to
your session when you attempt to reattach. This is likely because
an ssh proxy is holding the connection open in the vain hope that
it will get some traffic again. You can just run shpool detach main
to force the session to detach and allow you to attach.
This README covers basic usage, but you can also check out the wiki for more tips and tricks.
The troubleshooting wiki page contains some information about known pitfalls.
You can customize some of shpool
s behavior by editing your
~/.config/shpool/config.toml
file. For an in depth discussion
of configuration options see CONFIG.md.
shpool
supports keybindings (well really for the moment it
supports keybinding, but in principle we could add more).
For the moment, the only binding is Ctrl-Space Ctrl-q
to detach from the current session. If you wish, you can
configure this to use
a different keybinding. The full list of supported binding
actions is defined by the Action
enum in keybindings.rs
.
If you use bash, you may want to ensure that the huponexit
option
is set to make sure that child processes exit when you leave a
shell. Without this setting, background processes you have
spawned over the course of your shell session will stick around
in the shpool
daemon's process tree and eat up memory. To set
this option add
shopt -s huponexit
to your ~/.bashrc
.
The daemon
subcommand causes shpool
to run in daemon mode. When running in
this mode, shpool
listens for incoming connections and opens up subshells,
retaining ownership of them in a table. In general, this subcommand will not
be invoked directly by users, but will instead be called from a systemd unit
file.
The attach
subcommand connects to the shpool daemon
instance, passing in a
name. If the name is new, a new shell is created, and if it already exists it
just attaches to the existing session so long as no other terminal is currently
connected to that session. The --ttl
flag can be used to limit how long the
session will last.
Lists all the current shell sessions.
Detach from a one or more sessions without stopping them.
Will detach the current session if run from inside a shpool
session with no session name arguments.
Kills a named shell session.
Specifying session names yourself lets you assign logical roles such as text editing to each session.
If you typically connect to a small number of sessions with the same jobs on a particular machine, custom ssh config blocks on your client machine are probably the best fit.
To do this, you can define "hosts" for sessions named main
and edit
in a config block in ~/.ssh/config
on your client machine, like so
Host = main edit
Hostname remote.host.example.com
RemoteCommand shpool attach -f %k
RequestTTY yes
You can then attach to these sessions with ssh main
or ssh edit
.
%k
expands to the "host" named on the command line.
If you would rather have a little more flexibility in specifying the session name and machine you are targeting, you can make a custom shell function to let you specify both at invocation time. Add
function shpool-ssh () {
if [ $# -ne 2 ] ; then
echo "usage: shpool-ssh <remote-machine> <session-name>" >&2
return 1
fi
ssh -t "-oRemoteCommand=shpool attach -f $2" "$1"
}
to your .bashrc
then invoke it like
shpool-ssh remote.host.example.com main
.
Rather than specify an explicit name when you connect, you
can set up your system to automatically generate a shpool
session name based on your local terminal emulator's tty
number. To do so, you can add a block of custom ssh config
in the ~/.ssh/config
of your local machine like
Host = by-tty
User remoteuser
Hostname remote.host.example.com
RemoteCommand shpool attach -f "ssh-$(basename $(tty))"
RequestTTY yes
which you then invoke with ssh by-tty
. You can apply the same principle
of using $(basename $(tty))
to get a unique id for your local terminal
to the custom shell function approach as well.
The local-tty based approach has the advantage that you don't need to specify a session name, but it can run into problems if you have to close the local window and open a new terminal, which can come up if your connection freezes rather than drops.
tmux
and GNU screen
tmux
is probably the best known session persistence tool, and
GNU screen
has a similar feature set, so in comparison to shpool
it can be thought of as belonging to the same category.
The main way that shpool
differs from tmux
is that tmux
is a
terminal multiplexer which necessarily means that it offers session
persistence features, while shpool
only aims to be a session
persistence tool. In contrast to tmux
the philosophy of shpool
is that managing different terminals is the job of your display or
window manager, not your session persistence tool. Every operating
system has its own idioms for switching between applications, and
there is no reason to switch to different idioms when switching
between terminals. Especially for users of tiling window managers
such as i3
, sway
or xmonad
, tmux's multiplexing features are
redundant.
While tmux
renders terminal contents remotely and only paints
the current view to the screen, shpool
just directly sends
all shell output back to the user's local terminal. This means
that all rendering is handled by a single terminal state machine
rather than going through tmux
s internal in-memory terminal
before getting formatted and re-rendered by the local terminal.
This has performance implications, and probably most
importantly means that a terminal using shpool
will feel
completely native. Scrollback and copy-paste will work exactly
as they do in your native terminal, while they can behave differently
when using tmux
.
mosh
mosh
is another tool focused on providing persistent remote shell
sessions. It differs from the other tools discussed here in that it
has its own network protocol, which it bootstraps off of regular
ssh. Like tmux
, it renders the screen contents remotely and sends
just the current view back. It is somewhat unique in trying to
predicatively guess the right output to display to the user if
there is a network lag.
shpool
differs from mosh
in that it has nothing to do with
the network, remaining confined to a single machine like most of
these other tools. Just like in the case of tmux
, mosh
will
impact the way scrollback and copy-paste work, while shpool
keeps them feeling entirely native.
dtach
, abduco
, and diss
These tools have the most in common with shpool
. Just like shpool
, they
eschew multiplexing and just send the raw bytes back to you for your local
terminal to render. While you could say that shpool
aims to be a
simpler version of tmux
, these tools follow the same philosophy with
an even greater laser focus on simplicity and doing one thing well.
shpool
aims to be an easy and pleasant experience for people
who just want session persistence without having to care about
it too much, so it has a few more "cushy" features that would
not be as good a fit for the focus on simplicity of these
tools.
The most obvious of these features is the difference between
how shpool
and these programs handle re-attaches. Though under normal operation,
shpool
does not do any rendering and subsetting of the shell
output, it continually maintains an in-memory render of the
terminal state via the shpool_vt100
crate. On reattach, shpool
will use this in-memory render to
re-draw the screen, so you can easily see where you were when
your connection dropped. This even allows you to see output
generated after your connection dropped.
Another such feature is the automatic prompt prefix. shpool
will detect when you are using a known shell (currently
bash
, zsh
, or fish
) and automatically inject a prefix
into your prompt to let you know the name of the shpool
session
you are in. This adds some nice context so you don't lose
track of your terminals and have some hint about the current
terminal state.
There are also some features shpool
is missing which these
programs have. In particular, it seems that dtach
and abduco
support shared sessions, while shpool
only allows a single
client to be connected to a particular session at a time.
There may be more since I don't know these tools as well
as shpool
.
For information on how to develop shpool, see HACKING.md.
...can be found in debian/changelog.