This utility watches for USB device connect/disconnect events and switches monitor inputs via DDC/CI. This turns a simple USB switch into a full-fledged KVM solution: press one button on your USB switch and all your monitors connect to a different input.
It is supposed to be installed on all computers that could be connected to these monitors, since the app only switches monitors "one way" and relies on itself running on the other computers to switch it "the other way" as needed.
The app should function on MacOS, Windows, and Linux.
display_switch
can be installed with Homebrew:
brew install haimgel/tools/display_switch
The configuration is pretty similar on all platforms:
On MacOS: the configuration file is expected in ~/Library/Preferences/display-switch.ini
On Windows: the configuration file is expected in %APPDATA%\display-switch\display-switch.ini
On Linux: the configuration file is expected in $XDG_CONFIG_HOME/display-switch/display-switch.ini
or ~/.config/display-switch/display-switch.ini
Configuration file settings:
usb_device = "1050:0407"
on_usb_connect = "Hdmi1"
on_usb_disconnect = "Hdmi2"
usb_device
is which USB device to watch (vendor id / device id in hex), and on_usb_connect
is which monitor input
to switch to, when this device is connected. Supported values are Hdmi1
, Hdmi2
, DisplayPort1
, DisplayPort2
, Dvi1
, Dvi2
, Vga1
.
If your monitor has an USB-C port, it's usually reported as DisplayPort2
. Input can also be specified as a "raw"
decimal or hexadecimal value: on_usb_connect = 0x10
The optional on_usb_disconnect
settings allows to switch in the other direction when the USB device is disconnected.
Note that the preferred way is to have this app installed on both computers. Switching "away" is problematic: if the
other computer has put the monitors to sleep, they will switch immediately back to the original input.
display-switch
supports per-monitor configuration: add one or more monitor-specific configuration sections to set
monitor-specific inputs. For example:
on_usb_connect = "DisplayPort2"
on_usb_disconnect = "Hdmi1"
[monitor1]
monitor_id = "len"
on_usb_connect = "DisplayPort1"
[monitor2]
monitor_id = "dell"
on_usb_connect = "hdmi2"
monitor_id
specifies a case-insensitive substring to match against the monitor ID. For example, 'len' would match
LEN P27u-10 S/N 1144206897
monitor ID. If more than one section has a match, a first one will be used.
on_usb_connect
and on_usb_disconnect
, if defined, take precedence over global defaults.
Tips for Windows: monitors can be renamed in the Registry at
\HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Enum\DISPLAY\{MODEL_ID}\{CONNECTION_ID}
. Edit the DeviceDesc
value and change the name after the last semicolon. This is especially helpful in case they are all just "Generic PnP Monitor".
display-switch
supports running external commands upon connection or disconnection of USB devices. This configuration
can be global (runs every time a configured USB device is connected or disconnected) or per-monitor (runs only when
a given monitor is being switched):
usb_device = "1050:0407"
on_usb_connect = "Hdmi1"
on_usb_disconnect = "DisplayPort2"
on_usb_connect_execute = "echo connected"
on_usb_disconnect_execute = "echo disconnected"
[monitor1]
monitor_id="foobar"
on_usb_connect_execute = "echo usb connected, monitor 'foobar' being switched"
on_usb_disconnect_execute = "'c:\\program files\\my app.exe' --parameter"
Notes:
display-switch
. To locate the ID of your USB device ID on Windows:
HID\VID_046D&PID_C52B&MI_00
(the exact values will differ) - the USB device ID is a combination of the Vendor ID and the Product ID - for example, in this case it would be 046D:C52B
To locate the ID of your USB device ID on MacOS, open a terminal and run the following:
brew install lsusb
$ lsusb > a
<switch the usb dock here>
$ lsusb > b
$ opendiff a b
In the command output, the highlighted lines show you which USB IDs are most relevant.
Requires additional packages, install via: sudo apt install libxi-dev xorg-dev
To locate the ID of your USB device on Linux, first install lsusb
, which your Linux
distro should have a package for. (On Debian, Ubuntu and RedHat, the package name is usbutils
.)
Then, in a terminal, run the following:
$ lsusb > a
<switch the usb dock here>
$ lsusb > b
$ diff -u a b
The diff output will show which USB IDs are most relevant.
/Users/USERNAME/Library/Logs/display-switch/display-switch.log
%LOCALAPPDATA%\display-switch\display-switch.log
$XDG_DATA_HOME/display-switch/display-switch.log
or ~/.local/share/display-switch/display-switch.log
Install Rust, then do cargo build --release
Install Xcode, install Rust, then do
cargo build --release
Install Rust, then do cargo build --release
Copy display_switch.exe
from target\release
(where it was built in the previous step) to
%APPDATA%\Microsoft\Windows\Start Menu\Programs\Startup
.
# Get your INI file in order! (see above)
cp target/release/display_switch /usr/local/bin/
cp dev.haim.display-switch.daemon.plist ~/Library/LaunchAgents/
launchctl load ~/Library/LaunchAgents/dev.haim.display-switch.daemon.plist
Copy built executable:
cp target/release/display_switch /usr/local/bin/
Enable read/write access to i2c devices for users in i2c
group. Run as root :
groupadd i2c
echo 'KERNEL=="i2c-[0-9]*", GROUP="i2c"' >> /etc/udev/rules.d/10-local_i2c_group.rules
udevadm control --reload-rules && udevadm trigger
Then add your user to the i2c group :
sudo usermod -aG i2c $(whoami)
Create a systemd unit file in your user directory (/home/$USER/.config/systemd/user/display-switch.service
) with contents
[Unit]
Description=Display switch via USB switch
[Service]
ExecStart=/usr/local/bin/display_switch
Type=simple
StandardOutput=journal
Restart=always
[Install]
WantedBy=default.target
Create the config file at /home/$USER/.config/display-switch/display-switch.ini
.
Then enable the service with
systemctl --user daemon-reload
systemctl --user enable display-switch.service
systemctl --user start display-switch.service