Clipper is a macOS "launch agent" — or Linux daemon — that runs in the background providing a service that exposes the local clipboard to tmux sessions and other processes running both locally and remotely.
In the above example, you start off in a shell on your local machine; from there you use ssh
to a remote machine, where:
- You run
vim
(from a shell, insidetmux
, which itself runs in a shell). - When you "yank" text in
vim
, it is fed into the~/.clipper.sock
socket. - Via a SSH
RemoteForward
connection, the yanked text arrives back to the Clipper process running on your local machine. - The launch agent puts the text in your system clipboard.
Once everything is configured, all of this happens transparently; editing in vim
on a remote machine feels exactly like doing it on your local machine. While the above example uses macOS, vim, and tmux, the same patterns apply to other platforms and tools.
brew install clipper # run this outside of a tmux session
# Bind "Enter" in copy mode to both copy and forward to Clipper:
bind-key -T copy-mode-vi Enter send-keys -X copy-pipe-and-cancel "nc localhost 8377"
# Or, if you are running on a platform where nc requires the `-N` switch (eg. Ubuntu):
bind-key -T copy-mode-vi Enter send-keys -X copy-pipe-and-cancel "nc -N localhost 8377"
# Or, if you are running Clipper on a UNIX domain socket:
bind-key -T copy-mode-vi Enter send-keys -X copy-pipe-and-cancel "nc -U ~/.clipper.sock"
# Or, if your version of netcat doesn't have socket support and you want to use socat:
bind-key -T copy-mode-vi Enter send-keys -X copy-pipe-and-cancel "socat - UNIX-CLIENT:~/.clipper.sock"
# Bind "Enter" in copy mode to both copy and forward to Clipper:
bind-key -t vi-copy Enter copy-pipe "nc localhost 8377"
# Or, if you are running on a platform where nc requires the `-N` switch (eg. Ubuntu):
bind-key -t vi-copy Enter copy-pipe "nc -N localhost 8377"
# Or, if you are running Clipper on a UNIX domain socket:
bind-key -t vi-copy Enter copy-pipe "nc -U ~/.clipper.sock"
# Or, if your version of netcat doesn't have socket support and you want to use socat:
bind-key -t vi-copy Enter copy-pipe "socat - UNIX-CLIENT:~/.clipper.sock"
# Bind <prefix>-y to forward to Clipper
bind-key y run-shell "tmux save-buffer - | nc localhost 8377"
# Or, if you are running on a platform where nc requires the `-N` switch (eg. Ubuntu):
bind-key y run-shell "tmux save-buffer - | nc -N localhost 8377"
# Or, if you are running Clipper on a UNIX domain socket:
bind-key y run-shell "tmux save-buffer - | nc -U ~/.clipper.sock"
# Or, if your version of netcat doesn't have socket support and you want to use socat:
bind-key y run-shell "tmux save-buffer - | socat - UNIX-CLIENT:~/.clipper.sock"
" Bind <leader>y to forward last-yanked text to Clipper
nnoremap <leader>y :call system('nc localhost 8377', @0)<CR>
" Or, if you are running on a platform where nc requires the `-N` switch (eg. Ubuntu):
nnoremap <leader>y :call system('nc -N localhost 8377', @0)<CR>
" Or, if you are running Clipper on a UNIX domain socket:
nnoremap <leader>y :call system('nc -U ~/.clipper.sock', @0)<CR>
" Or, if your version of netcat doesn't have socket support and you want to use socat:
nnoremap <leader>y :call system('socat - UNIX-CLIENT:~/.clipper.sock', @0)<CR>
Alternatively, use the vim-clipper plug-in.
# Pipe anything into `clip` to forward it to Clipper
alias clip="nc localhost 8377"
" Or, if you are running on a platform where nc requires the `-N` switch (eg. Ubuntu):
alias clip="nc -N localhost 8377"
# Or, if you are running Clipper on a UNIX domain socket:
alias clip="nc -U ~/.clipper.sock"
# Or, if your version of netcat doesn't have socket support and you want to use socat:
alias clip="socat - UNIX-CLIENT:~/.clipper.sock"
# Forward Clipper connection to remote host
Host host.example.org
RemoteForward 8377 localhost:8377
# Or, if you are running Clipper on a UNIX domain socket:
Host host.example.org
RemoteForward /home/me/.clipper.sock /Users/me/.clipper.sock
You're running tmux, possibly on a remote machine via ssh, and want to copy something using tmux copy mode into your local system clipboard.
You can hold down Option and click to make a selection, bypassing tmux and allowing you to copy straight to the system clipboard, but that won't work if you're using vertical splits (because the selection will operate across the entire width of the terminal, crossing the splits) or if you want to grab more than what is currently visible.
As a workaround for the vertical split problem, you can hold down Option + Command to make a rectangular (non-contiguous) selection, but that will grab trailing whitespace as well, requiring you to manually clean it up later. Again, it won't work if you want to grab more than what is currently visible.
As a result, you often find yourself doing a tiresome sequence of:
- Copy a selection using tmux copy mode on a remote machine
- Still on the remote machine, open a new, empty buffer in Vim
- Enter Vim paste mode (
:set paste
) - Paste the tmux copy buffer into the Vim buffer
- Write the file to a temporary location (eg.
:w /tmp/buff
) - From the local machine, get the contents of the temporary file into the local system clipboard with
ssh user@host cat /tmp/buff | pbcopy
or similar
macOS comes with a pbcopy
tool that allows you to get stuff into the clipboard from the command-line. xclip
is an alternative that works on Linux. We've already seen this at work above. Basically, we can do things like echo foo | pbcopy
to place "foo" in the system clipboard.
tmux has a few handy commands related to copy mode buffers, namely save-buffer
, copy-pipe
and copy-pipe-and-cancel
, the availability of which depends on the version of tmux that you are running. With these, you can dump the contents of a buffer to standard out.
In theory, combining these elements, we can add something like this to our ~/.tmux.conf
:
bind-key -T copy-mode-vi Enter send-keys -X copy-pipe-and-cancel pbcopy
or, in a version of tmux prior to 2.4 (which use vi-copy
instead of copy-mode-vi
, and copy-pipe
instead of copy-pipe-and-cancel
):
bind-key -t vi-copy Enter copy-pipe pbcopy
or, in an even older version of tmux prior to 1.8 (which don't have the copy-pipe-and-cancel
or copy-pipe
commands):
bind-key y run-shell "tmux save-buffer - | pbcopy"
In practice, this won't work on versions of macOS prior to 10.10 "Yosemite" or after 10.11 "El Capitan" — there was a brief lapse during those versions where it did work — because tmux uses the daemon(3)
system call, which ends up putting it in a different execution context from which it cannot interact with the system clipboard. For (much) more detail, see:
One workaround comes in the form of the reattach-to-user-space
tool available here:
This is a wrapper which allows you to launch a process and have it switch from the daemon execution context to the "user" context where access to the system clipboard is possible. The suggestion is that you can add a command like the following to your ~/.tmux.conf
to make this occur transparently whenever you open a new pane or window:
set-option -g default-command "reattach-to-user-namespace -l zsh"
Despite the fact that the wrapper tool relies on an undocumented, private API, it is written quite defensively and appears to work pretty well. While this is a workable solution when running on the local machine — so workable in fact that it is baked into tmux itself in version 2.6 — we'll need something else if we want things to work transparently both locally and remotely, or on older versions of tmux. This is where Clipper comes in.
Clipper is a server process that you can run on your local machine. It will listen on the network or on a UNIX domain socket for connections, and place any content that it receives into the system clipboard.
It can be set to run automatically as a "launch agent" in the appropriate execution context, which means you don't have to worry about starting it, and it will still have access to the system clipboard despite being "daemon"-like.
Through the magic of ssh -R
it is relatively straightforward to have a shared tmux configuration that you can use both locally and remotely and which will provide you with transparent access to the local system clipboard from both places.
For Homebrew users, install by running (outside of all tmux sessions):
brew install clipper # and follow the prompts...
Alternatively, if you have a working Go environment on your system you can do:
go get github.com/wincent/clipper
Finally, if you want to do things manually, you can clone from the authoritative Git repo and build manually (which again requires a working Go environment):
git clone git://git.wincent.dev/clipper.git
cd clipper
go build
If you plan to use Clipper as a launch agent you'll need to put it somewhere the system can find it (ie. at a location in the standard PATH, such as under /usr/local/bin/
) and update the included property list file to specify the full path to the location where you installed the Clipper executable.
The following examples show how you would install the built Clipper executable to /usr/local/bin/
after cloning the repo and performing a build. It also shows how you would set up Clipper as a launch agent (on macOS) or systemd service (on Linux) and start it running:
sudo cp clipper /usr/local/bin
cp contrib/darwin/tcp-port/com.wincent.clipper.plist ~/Library/LaunchAgents/
launchctl load -w -S Aqua ~/Library/LaunchAgents/com.wincent.clipper.plist
Note that these commands may fail to do the right thing inside of a tmux session under macOS. Run launchctl
from outside of tmux, otherwise Clipper may find itself in the wrong execution context. Similarly, when running manually, either run Clipper outside of tmux or use the aforementioned reattach-to-user-space
as a wrapper.
sudo cp clipper /usr/local/bin
cp contrib/linux/systemd-service/clipper.service ~/.config/systemd/user
systemctl --user daemon-reload
systemctl --user enable clipper.service
systemctl --user start clipper.service
Alternatively, if you'd like to run Clipper manually, you can do so with:
./clipper [--address=IP_ADDR|UNIX_SOCKET] \
[--port=PORT] \
[--logfile=LOGFILE] \
[--config=CONFIG_FILE]
A Homebrew installation can be reversed with:
brew uninstall clipper
A manual launch agent installation can be reversed with the following (and as before, note that you should probably only run launchctl
outside of a tmux session):
launchctl unload ~/Library/LaunchAgents/com.wincent.clipper.plist
rm ~/Library/LaunchAgents/com.wincent.clipper.plist
sudo rm /usr/local/bin/clipper
On Linux:
systemctl --user stop clipper.service
systemctl --user disable clipper.service
sudo rm /usr/local/bin/clipper
rm -r ~/.config/clipper
To kill a manually-launched instance of Clipper, just hit Control+C in the terminal where it is running.
As previously noted, Clipper supports a number of command line options, which you can see by running clipper -h
:
Usage of clipper:
-a string
address to bind to (default loopback interface)
-address string
address to bind to (default loopback interface)
-c string
path to (JSON) config file (default "~/.clipper.json")
-config string
path to (JSON) config file (default "~/.clipper.json")
-e string
program called to write to clipboard (default "pbcopy")
-executable string
program called to write to clipboard (default "pbcopy")
-f string
arguments passed to clipboard executable
-flags string
arguments passed to clipboard executable
-h show usage information
-help
show usage information
-l string
path to logfile (default "~/Library/Logs/com.wincent.clipper.log")
-logfile string
path to logfile (default "~/Library/Logs/com.wincent.clipper.log")
-p int
port to listen on (default 8377)
-port int
port to listen on (default 8377)
-v show version information
-version
show version information
The defaults shown above apply on macOS. Run clipper -h
on Linux to see the defaults that apply there.
You can explicitly set these on the command line, or in the plist file if you are using Clipper as a launch agent. Clipper will also look for a configuration file in JSON format at ~/.clipper.json
(this location can be overidden with the --config
/-c
options) and read options from that. The following options are supported:
address
executable
flags
logfile
port
Here is a sample ~/.clipper.json
config file:
{
"address": "~/.run/clipper.sock",
"logfile": "~/Library/Logs/clipper.log"
}
Note that explicit command line options — including options supplied via a plist — trump options read from a config file.
Specifies the address on which the Clipper daemon will listen for connections. Defaults to "localhost", and listens on both IPv4 and IPv6 addresses, when available. This is a reasonable default, but you may wish to set it to a filesystem path instead in order to have Clipper create a UNIX domain socket at that location and listen on that instead (for better security: see "Security" below for more). Or perhaps you would like to only listen on IPv4 or IPv6, in which case you would use "127.0.0.1" or "[::1]" respectively (the square brackets around the IPv6 address are needed by the Go networking libraries in order to disambiguate the colons in the address from colons used to separate it from the port number). Note that if you see an error of the form "too many colons in address", it is likely that you have forgotten to wrap the IPv6 address in surrounding brackets.
The port on which the Clipper daemon will accept TCP connections. Defaults to 8377. You may wish to set this to some other value, to avoid colliding with another service (or Clipper user) on your system using that port, or because you want some tiny extra dose of security through obscurity.
Note that if you use the --address
option to make Clipper use a UNIX domain socket, then setting the --port
has no useful effect.
See the "Security" section below for more.
Unsurprisingly, controls where the Clipper daemon logs its output. Defaults to "~/Library/Logs/com.wincent.clipper.log".
As an example, you could disable all logging by setting this to "/dev/null".
The executable used to place content on the clipboard (defaults to pbcopy
on macOS and xclip
on Linux).
The flags to pass to the executable
(defaults to -selection clipboard
on Linux and nothing on macOS).
Now we can use a slight modification of our command from earlier. Assuming we kept the standard listen address (127.0.0.1) and port (8377), we can use a command like this to send the last-copied text whenever we hit our tmux prefix key followed by y
; here we're using netcat (nc
) to send the contents of the buffer to the listening Clipper agent:
bind-key y run-shell "tmux save-buffer - | nc localhost 8377"
Or, if you are running on a platform where nc
requires the -N
switch (eg. Ubuntu):
bind-key y run-shell "tmux save-buffer - | nc -N localhost 8377"
If we instead configured Clipper to listen on a UNIX domain socket at ~/.clipper.sock
, then we could do something like:
bind-key y run-shell "tmux save-buffer - | nc -U ~/.clipper.sock"
Or, alternatively, with socat
(which may be useful if your version of nc
doesn't support the -U
switch):
bind-key y run-shell "tmux save-buffer - | socat - UNIX-CLIENT:~/.clipper.sock"
In tmux 1.8 to 2.3, we have access to the new copy-pipe
command and can use a single key binding to copy text into the tmux copy buffer and send it to Clipper and therefore the system clipboard at the same time:
bind-key -t vi-copy Enter copy-pipe "nc localhost 8377"
Or, if you are running on a platform where nc
requires the -N
switch (eg. Ubuntu):
bind-key -t vi-copy Enter copy-pipe "nc -N localhost 8377"
Or, for a UNIX domain socket at ~/.clipper.sock
:
bind-key -t vi-copy Enter copy-pipe "nc -U ~/.clipper.sock"
Or, with socat
:
bind-key -t vi-copy Enter copy-pipe "socat - UNIX-CLIENT:~/.clipper.sock"
In tmux 2.4 and above, we would use:
bind-key -T copy-mode-vi Enter send-keys -X copy-pipe-and-cancel "nc localhost 8377"
Or, if you are running on a platform where nc
requires the -N
switch (eg. Ubuntu):
bind-key -T copy-mode-vi Enter send-keys -X copy-pipe-and-cancel "nc -N localhost 8377"
Or, for a UNIX domain socket at ~/.clipper.sock
:
bind-key -T copy-mode-vi Enter send-keys -X copy-pipe-and-cancel "nc -U ~/.clipper.sock"
Or, with socat
:
bind-key -T copy-mode-vi Enter send-keys -X copy-pipe-and-cancel "socat - UNIX-CLIENT:~/.clipper.sock"
There is nothing inherent in Clipper that ties it to tmux. We can use it from any process, including Vim.
For example, we can add a mapping to our ~/.vimrc
to send the last-yanked text to Clipper by hitting <leader>y
:
nnoremap <leader>y :call system('nc localhost 8377', @0)<CR>
Or, if you are running on a platform where nc
requires the -N
switch (eg. Ubuntu):
nnoremap <leader>y :call system('nc -N localhost 8377', @0)<CR>
Equivalently, we could do the same for a Clipper daemon listening on a UNIX domain socket at ~/.clipper.sock
with:
nnoremap <leader>y :call system('nc -U ~/.clipper.sock', @0)<CR>
Or, with socat
:
nnoremap <leader>y :call system('socat - UNIX-CLIENT:~/.clipper.sock', @0)<CR>
For the lazy, this functionality plus a :Clip
command is made available as a separate Vim plug-in called "vim-clipper", which additionally makes it possible to use the TextYankPost
autocommand to forward all yanked text to Clipper automatically on versions of Vim that support it (currently, Neovim).
By setting up an alias like:
alias clip="nc localhost 8377"
Or, if you are running on a platform where nc
requires the -N
switch (eg. Ubuntu):
alias clip="nc -N localhost 8377"
Or (in the case of Clipper listening on a UNIX domain socket at ~/.clipper.sock
):
alias clip="nc -U ~/.clipper.sock"
Or, with socat
:
alias clip="socat - UNIX-CLIENT:~/.clipper.sock"
You can conveniently get files and other content into your clipboard:
cat example.txt | clip
ls /etc | clip
Again, assuming default address and port, we can use -R
like this:
ssh -R localhost:8377:localhost:8377 [email protected]
Or, in the case of a UNIX domain socket at ~/.clipper.sock
and a sufficiently recent version of OpenSSH (version 6.7 or above):
# Assuming a local socket on macOS in $HOME at /Users/me/.clipper.sock
# and a remote Linux machine with $HOME is in /home rather than /Users:
ssh -R /home/me/.clipper.sock:/Users/me/.clipper.sock host.example.org
With this, a tmux process running on the remote host can use the same configuration file, and our run-shell
from above will send the buffer contents to localhost:8377 (or the UNIX domain socket) on the remote machine, which will then be forwarded back over the SSH connection to localhost:8377 (or the UNIX domain socket) on the local machine, where Clipper is listening.
See the "Security" section below for some considerations.
To make this automated, entries can be set up in .ssh/config
:
# TCP forwarding:
Host host.example.org
RemoteForward 8377 localhost:8377
# UNIX domain socket forwarding:
Host host.example.org
RemoteForward /home/me/.clipper.sock:/Users/me/.clipper.sock
With this, forwarding is automatically set up any time you run:
This works particularly well if you use the ControlMaster
, ControlPath
and ControlPersist
settings described in the ssh_config
man page. These allow you to set up a single forward, and re-use it each time you connect, even if you have multiple concurrent connnections to a given server. An example ~/.ssh/config
configuration that would give you this for all hosts would be something like:
Host *
ControlMaster auto
ControlPath ~/.ssh/%r@%h:%p
ControlPersist 240
Mosh is an alternative to SSH that aims to be a superior "mobile shell" than SSH. It is designed to handle intermittent connectivity, and provides relatively intelligent local echoing of line editing commands, but it doesn't yet support any kind of port forwarding (as of the current release, which is version 1.2.5 at the time of writing).
One way to use Clipper with Mosh is to use Mosh for interactive editing but keep using SSH for port forwarding. For example, just say you want to connect to a remote machine with the alias "sandbox", you could have entries like this in your ~/.ssh/config
:
Host sandbox
ControlMaster no
ControlPath none
Hostname sandbox.example.com
Host sandbox-clipper
ControlMaster no
ControlPath none
ExitOnForwardFailure yes
Hostname sandbox.example.com
RemoteForward 8377 localhost:8377
With this set-up, you can set up the tunnel with:
ssh -N -f sandbox-clipper
SSH will connect to the server, set up the port forwarding and then go into the background.
Then connect using Mosh (it will respect the settings in your ~/.ssh/config
file because it uses SSH to bootstrap new connections):
mosh sandbox
You could also set up a shell alias to make setting up the Clipper tunnel more convenient; for example:
alias clip-sandbox='ssh -N -f sandbox-clipper'
You should only need to re-run this command if the connection is interrupted for some reason.
This message can be emitted when the remote host you're connecting to already has something bound to the requested port. If there is a competing service that you can't move to another port, Clipper can be configured to use a different port with the --port
switch, described above.
Another reason you might see this warning is because an old or stale SSH daemon is lingering from a prior connection attempt. The following example commands show how you can detect the PID of such a process (in this example, 29517) and kill it off:
$ sudo netstat -antpl | grep 8377 # look for offending PID (29517) in output
$ ps auxww | grep 29517 # confirm it's your old sshd process
$ kill 29517 # kill off old process
$ ps auxww | grep 29517 # confirm that process is really gone
For the bold and lazy, you can simply kill off all sshd
process belonging to your user with:
$ killall -u $USER sshd
Do not do this as root, as you will lock yourself out of your server.
Consult the netstat man page for more details (supported options may vary depending on the host operating system).
Just as with TCP port forwarding, forwarding can fail when using UNIX domain sockets if a stale socket doesn't get automatically cleaned up (or overwritten, as should be the case when StreamLocalBindUnlink yes
is present in the server's sshd_config
file).
In this case, the fix is to remove the stale socket on the remote host. For example, assuming a socket in $HOME/.clipper.sock
on the remote host, $HOST
:
$ ssh $HOST rm .clipper.sock
It's been reported that on some systems sending data to Clipper via nc
may be affected by an annoying delay. Reportedly, adding the -N
switch to nc
may address this issue.
Clipper helps you get content into your local clipboard from other, possibly remote, processes. To send content in the other direction, just paste normally. Note that to make this pleasant in an environment like Vim, you may want to set up bracketed paste mode; see my dotfiles for an example of how this can be done.
At the moment, Clipper doesn't employ any authentication. It does, by default, listen only on the loopback interface, which means that random people on your network won't be able to connect to it. People with access to your local machine, however, will have access; they can push content into your clipboard even if they can't read from it.
This may be fine on a single-user machine, but when you start using ssh -R
to expose your Clipper instance on another machine you're evidently increasing your surface area. In order to mitigate this risk, you can configure Clipper to listen only on a UNIX domain socket, and place that socket in a location where the file-system permissions prevent others from accessing it.
Most SSH systems are configured to use restrictive permissions on forwarded socket files (unless overridden; see the documentation for StreamLocalBindMask
in man ssh_config
), but you may wish to place the socket in a non-shared location like ~/.clipper.sock
rather than a shared one like /tmp/clipper.sock
in any case.
OSC-52 is a relatively recent unofficial addition to the set of ANSI escape sequences but it is supported by many programs1. In these compatible programs, with some configuration or support from a plug-in, the escape sequence can be used to instruct the receiving application to insert content into the system clipboard. The main attraction of this implementation is that, if it works at all, it will work irrespective of the location where the copy is happening. For example, a process such as Vim running inside tmux inside an SSH session on a remote host inside a Kitty terminal window can insert text into the clipboard just as easily as it could if run on the local host.
Personally, I continue to use Clipper because most OSC-52 implementations seem to have arbitrary, incompatible limitations imposed on maximum payload size. In some cases, this limit can be configured (for example, see kitty#3937), but in practice I found that it only takes one weak link in the chain to silently truncate copied content in a way that undermines confidence in the entire system. Given that I routinely copy absurdly large slabs of text (eg. log or debug output) in various environments (ie. local and remote), the downsides make OSC-52 unattractive for my personal use. But if a beginner were to ask me how to get remote copying working with as little effort as possible, I'd point them towards OSC-52 — with a suitable disclaimer about possible silent truncation — because their tools may already support it, and they won't have to go to the effort of installing and configuring Clipper.
Clipper is written and maintained by Greg Hurrell <[email protected]>.
Other contributors that have submitted patches include, in alphabetical order:
- Daniel Thatcher
- Jannis Hermanns
- Nelson Fernandez
- Paul Choi
The official Clipper source code repo is at:
Mirrors exist at:
Patches are welcome via the usual mechanisms (pull requests, email, posting to the project issue tracker etc).
The official website for Clipper is:
Bug reports should be submitted to the issue tracker at:
Copyright 2013-present Greg Hurrell. All rights reserved.
Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
- Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
- Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
- Automatically create logfile directory (patch from Daniel Thatcher, #21).
- Accept an empty string for the
--flags
option, allowing flags to be suppressed (#15).
- Automatically clean up stale socket files at startup.
- Fix binding to all interfaces instead of just the loopback interface when no address is provided (#9).
- Create socket with user-only permissions, for better security.
- Linux support via
xclip
instead ofpbcopy
(patch from Nelson Fernandez). - Added
--executable
and--flags
options. - On dual-stack systems, listen on both IPv4 and IPv6 loopback interfaces by default.
- Add support for listening over a UNIX domain socket.
- Add support for reading options from a config file (
--config
/-c
switch).
- Documentation updates.
- Updated sample plist to use UTF-8 encoding by default.
- Initial release.
Footnotes
-
A sign of just how recent this addition is the fact that Wikipedia doesn't currently mention it, and the most authoritative explanation for what it is currently exists in the form of a Reddit thread. ↩