Section: User Commands (1)
Updated: 6 Feb 1994
loadkeys [ -b --bkeymap ] [ -c --clearcompose ] [ -C '<FILE>' | --console=<FILE> ] [ -d --default ] [ -h --help ] [ -m --mktable ] [ -q --quiet ] [ -s --clearstrings ] [ -u --unicode ] [ -v --verbose ] [ filename... ]
If the -d (or --default ) option is given, loadkeys loads a default keymap, probably the file defkeymap.map either in /usr/share/keymaps or in /usr/src/linux/drivers/char. (Probably the former was user-defined, while the latter is a qwerty keyboard map for PCs - maybe not what was desired.) Sometimes, with a strange keymap loaded (with the minus on some obscure unknown modifier combination) it is easier to type `loadkeys defkeymap'.
The main function of loadkeys is to load or modify the keyboard driver's translation tables. When specifying the file names, standard input can be denoted by dash (-). If no file is specified, the data is read from the standard input.
For many countries and keyboard types appropriate keymaps are available already, and a command like `loadkeys uk' might do what you want. On the other hand, it is easy to construct one's own keymap. The user has to tell what symbols belong to each key. She can find the keycode for a key by use of showkey?(1), while the keymap format is given in keymaps?(5) and can also be seen from the output of dumpkeys?(1).
If the input file does not contain any compose key definitions, the kernel accent table is left unchanged, unless the -c (or --clearcompose ) option is given, in which case the kernel accent table is emptied. If the input file does contain compose key definitions, then all old definitions are removed, and replaced by the specified new entries. The kernel accent table is a sequence of (by default 68) entries describing how dead diacritical signs and compose keys behave. For example, a line
The option -s (or --clearstrings ) clears the kernel string table. If this option is not given, loadkeys will only add or replace strings, not remove them. (Thus, the option -s is required to reach a well-defined state.) The kernel string table is a sequence of strings with names like F31. One can make function key F5 (on an ordinary PC keyboard) produce the text `Hello!', and Shift+F5 `Goodbye!' using lines
:keycode 63 = F70 F71
string F70 = "Hello!"
string F71 = "Goodbye!":
If the -m (or --mktable ) option is given loadkeys prints to the standard output a file that may be used as /usr/src/linux/drivers/char/defkeymap.c, specifying the default key bindings for a kernel (and does not modify the current keymap).
If the -b (or --bkeymap ) option is given loadkeys prints to the standard output a file that may be used as a binary keymap as expected by Busybox loadkmap command (and does not modify the current keymap).
loadkeys automatically detects whether the console is in Unicode or ASCII (XLATE) mode. When a keymap is loaded, literal keysyms (such as section) are resolved accordingly; numerical keysyms are converted to fit the current console mode, regardless of the way they are specified (decimal, octal, hexadecimal or Unicode).
The -u (or --unicode) switch forces loadkeys to convert all keymaps to Unicode. If the keyboard is in a non-Unicode mode, such as XLATE, loadkeys will change it to Unicode for the time of its execution. A warning message will be printed in this case.
Note that anyone having read access to /dev/console can run loadkeys and thus change the keyboard layout, possibly making it unusable. Note that the keyboard translation table is common for all the virtual consoles, so any changes to the keyboard bindings affect all the virtual consoles simultaneously.
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