The synergy server requires configuration. It will try certain pathnames to load the configuration file if you don't specify a path using the --config command line option. synergys --help reports those pathnames.
The configuration file is a plain text file. Use any text editor to create the configuration file. The file is broken into sections and each section has the form: section: name args end Comments are introduced by # and continue to the end of the line. name must be one of the following:
The file is parsed top to bottom and names cannot be used before they've been defined in the screens or aliases sections. So the links and aliases must appear after the screens and links cannot refer to aliases unless the aliases appear before the links.
args is a list of screen names, one name per line, each followed by a colon. Names are arbitrary strings but they must be unique. The hostname of each computer is recommended. (This is the computer's network name on win32 and the name reported by the program hostname on Unix and OS X. Note that OS X may append .local to the name you gave your computer; e.g. somehost.local.) There must be a screen name for the server and each client. Each screen can specify a number of options. Options have the form name = value and are listed one per line after the screen name.
Example: section: screens moe: larry: halfDuplexCapsLock = true halfDuplexNumLock = true curly: meta = alt end This declares three screens named moe, larry, and curly. Screen larry has half-duplex Caps Lock and Num Lock keys (see below) and screen curly converts the meta modifier key to the alt modifier key.
A screen can have the following options:
This computer has a Caps Lock key that doesn't report a press and a release event when the user presses it but instead reports a press event when it's turned on and a release event when it's turned off. If Caps Lock acts strangely on all screens then you may need to set this option to true on the server screen. If it acts strangely on one screen then that screen may need the option set to true.
This is identical to halfDuplexCapsLock except it applies to the Num Lock key.
This is identical to halfDuplexCapsLock except it applies to the Scroll Lock key. Note that, by default, synergy uses Scroll Lock to keep the cursor on the current screen. That is, when Scroll Lock is toggled on, the cursor is locked to the screen that it's currently on. You can use that to prevent accidental switching. You can also configure other hot keys to do that; see lockCursorToScreen.
See switchCorners below.
See switchCornerSize below.
This option works around a bug in the XTest extension when used in combination with Xinerama. It affects X11 clients only. Not all versions of the XTest extension are aware of the Xinerama extension. As a result, they do not move the mouse correctly when using multiple Xinerama screens. This option is currently true by default. If you know your XTest extension is Xinerama aware then set this option to false.
Map a modifier key pressed on the server's keyboard to a different modifier on this client. This option only has an effect on a client screen; it's accepted and ignored on the server screen.
You can map, say, the shift key to shift (the default), ctrl, alt, meta, super or nothing. Normally, you wouldn't remap shift or ctrl. You might, however, have an X11 server with meta bound to the Alt keys. To use this server effectively with a windows client, which doesn't use meta but uses alt extensively, you'll want the windows client to map meta to alt (using meta = alt).
args is a list of screen names just like in the screens section except each screen is followed by a list of aliases, one per line, not followed by a colon. An alias is a screen name and must be unique. During screen name lookup each alias is equivalent to the screen name it aliases. So a client can connect using its canonical screen name or any of its aliases.
Example: section: aliases larry: larry.stooges.com curly: shemp end Screen larry is also known as larry.stooges.com and can connect as either name. Screen curly is also known as shemp (hey, it's just an example).
args is a list of screen names just like in the screens section except each screen is followed by a list of links, one per line. Each link has the form {left|right|up|down}[<range>] = name[<range>]. A link indicates which screen is adjacent in the given direction.
Each side of a link can specify a range which defines a portion of an edge. A range on the direction is the portion of edge you can leave from while a range on the screen is the portion of edge you'll enter into. Ranges are optional and default to the entire edge. All ranges on a particular direction of a particular screen must not overlap.
A <range> is written as (<start>,<end>). Both start and end are percentages in the range 0 to 100, inclusive. The start must be less than the end. 0 is the left or top of an edge and 100 is the right or bottom.
Example: section: links moe: right = larry up(50,100) = curly(0,50) larry: left = moe up(0,50) = curly(50,100) curly: down(0,50) = moe down(50,100) = larry(0,50) end This indicates that screen larry is to the right of screen moe (so moving the cursor off the right edge of moe would make it appear at the left edge of larry), the left half of curly is above the right half of moe, moe is to the left of larry (edges are not necessarily symmetric so you have to provide both directions), the right half of curly is above the left half of larry, all of moe is below the left half of curly, and the left half of larry is below the right half of curly.
Note that links do not have to be symmetrical; for instance, here the edge between moe and curly maps to different ranges depending on if you're going up or down. In fact links don't have to be bidirectional. You can configure the right of moe to go to larry without a link from the left of larry to moe. It's possible to configure a screen with no outgoing links; the cursor will get stuck on that screen unless you have a hot key configured to switch off of that screen.
args is a list of lines of the form name = value. These set the global options.
Example: section: options heartbeat = 5000 switchDelay = 500 end
You can use the following options:
The server will expect each client to send a message no less than every N milliseconds. If no message arrives from a client within 3N seconds the server forces that client to disconnect.
If synergy fails to detect clients disconnecting while the server is sleeping or vice versa, try using this option.
Synergy won't switch screens when the mouse reaches the edge of the screen if it's in a listed corner. The size of all corners is given by the switchCornerSize option.
Corners are specified by a list using the following names:
The first name in the list is one of the above names and defines the initial set of corners. Subsequent names are prefixed with + or - to add the corner to or remove the corner from the set, respectively. For example:
all -left +top-left
starts will all corners, removes the left corners (top and bottom) then adds the top-left back in, resulting in the top-left, bottom-left and bottom-right corners.
Sets the size of all corners in pixels. The cursor must be within N pixels of the corner to be considered to be in the corner.
Synergy won't switch screens when the mouse reaches the edge of a screen unless it stays on the edge for N milliseconds. This helps prevent unintentional switching when working near the edge of a screen.
Synergy won't switch screens when the mouse reaches the edge of a screen unless it's moved away from the edge and then back to the edge within N milliseconds. With the option you have to quickly tap the edge twice to switch. This helps prevent unintentional switching when working near the edge of a screen.
If set to false then synergy won't synchronize screen savers. Client screen savers will start according to their individual configurations. The server screen saver won't start if there is input, even if that input is directed toward a client screen.
If set to true then secondary screens move the mouse using relative rather than absolute mouse moves when and only when the cursor is locked to the screen (by Scroll Lock or a configured hot key). This is intended to make synergy work better with certain games. If set to false or not set then all mouse moves are absolute.
Binds the key combination key to the given actions. key is an optional list of modifiers (shift, control, alt, meta or super) optionally followed by a character or a key name, all separated by + (plus signs). You must have either modifiers or a character/key name or both. See below for valid key names.
Actions are described below.
Keyboard hot keys are handled while the cursor is on the primary screen and secondary screens. Separate actions can be assigned to press and release.
Binds the modifier and mouse button combination button to the given actions. button is an optional list of modifiers (shift, control, alt, meta or super) followed by a button number. The primary button (the left button for right handed users) is button 1, the middle button is 2, etc.
Actions are described below.
Mouse button actions are not handled while the cursor is on the primary screen. You cannot use these to perform an action while on the primary screen. Separate actions can be assigned to press and release.
Actions are two lists of individual actions separated by commas. The two lists are separated by a semicolon. Either list can be empty and if the second list is empty then the semicolon is optional. The first list lists actions to take when the condition becomes true (e.g. the hot key or mouse button is pressed) and the second lists actions to take when the condition becomes false (e.g. the hot key or button is released). The condition becoming true is called activation and becoming false is called deactivation. Allowed individual actions are:
Synthesizes the modifiers and key given in key which has the same form as described in the keystroke option. If given, screens lists the screen or screens to direct the event to, regardless of the active screen. If not given then the event is directed to the active screen only. (Due to a bug, keys cannot be directed to the server while on a client screen.)
keyDown synthesizes a key press and keyUp synthesizes a key release. keystroke synthesizes a key press on activation and a release on deactivation and is equivalent to a keyDown on activation and keyUp on deactivation.
screens is either * to indicate all screens or a colon (:) separated list of screen names. (Note that the screen name must have already been encountered in the configuration file so you'll probably want to put actions at the bottom of the file.)
Synthesizes the modifiers and mouse button given in button which has the same form as described in the mousebutton option.
mouseDown synthesizes a mouse press and mouseUp synthesizes a mouse release. mousebutton synthesizes a mouse press on activation and a release on deactivation and is equivalent to a mouseDown on activation and mouseUp on deactivation.
Locks the cursor to or unlocks the cursor from the active screen. mode can be off to unlock the cursor, on to lock the cursor, or toggle to toggle the current state. The default is toggle. If the configuration has no lockCursorToScreen action and Scroll Lock is not used as a hot key then Scroll Lock toggles cursor locking.
Jump to screen with name or alias screen.
Switch to the screen in the direction dir, which may be one of left, right, up or down.
Turns broadcasting of keystrokes to multiple screens on and off. When turned on all key presses and releases are sent to all of the screens listed in screens. If not given, empty or * then keystrokes are broadcast to all screens. (However, due to a bug, keys cannot be sent to the server while on a client screen.)
mode can be off to turn broadcasting off, on to turn it on, or toggle to toggle the current state. The default is toggle.
screens is either * to indicate all screens or a colon (:) separated list of screen names. (Note that the screen name must have already been encountered in the configuration file so you'll probably want to put actions at the bottom of the file.)
Multiple keyboardBroadcast actions may be configured with different screens. The most recently performed action defines the screens to broadcast to.
Examples:
Switches to the screen to left when the left arrow key is pressed in combination with the Alt key.
Switches to screen moe when all of the Shift, Control, Alt, and Super modifier keys are pressed together.
Toggles locking the cursor to the screen when Alt+F1 is released.
While on a secondary screen clicking the middle mouse button will become a Control click of the primary button.
Pressing Super+F1 (on any screen) will synthesize Super+L on screen larry and Control+Alt+Delete on screen curly.
Valid key names are:
Additionally, a name of the form \uXXXX where
XXXX is a hexadecimal number is interpreted as
a unicode character code.
Key and modifier names are case-insensitive. Keys that don't exist on
the keyboard or in the default keyboard layout will not work.