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1=================
2Keyboard notifier
3=================
4
5One can use register_keyboard_notifier to get called back on keyboard
6events (see kbd_keycode() function for details). The passed structure is
7keyboard_notifier_param (see <linux/keyboard.h>):
8
9- 'vc' always provide the VC for which the keyboard event applies;
10- 'down' is 1 for a key press event, 0 for a key release;
11- 'shift' is the current modifier state, mask bit indexes are KG_*;
12- 'ledstate' is the current LED state;
13- 'value' depends on the type of event.
14
15- KBD_KEYCODE events are always sent before other events, value is the keycode.
16- KBD_UNBOUND_KEYCODE events are sent if the keycode is not bound to a keysym.
17 value is the keycode.
18- KBD_UNICODE events are sent if the keycode -> keysym translation produced a
19 unicode character. value is the unicode value.
20- KBD_KEYSYM events are sent if the keycode -> keysym translation produced a
21 non-unicode character. value is the keysym.
22- KBD_POST_KEYSYM events are sent after the treatment of non-unicode keysyms.
23 That permits one to inspect the resulting LEDs for instance.
24
25For each kind of event but the last, the callback may return NOTIFY_STOP in
26order to "eat" the event: the notify loop is stopped and the keyboard event is
27dropped.
28
29In a rough C snippet, we have::
30
31 kbd_keycode(keycode) {
32 ...
33 params.value = keycode;
34 if (notifier_call_chain(KBD_KEYCODE,¶ms) == NOTIFY_STOP)
35 || !bound) {
36 notifier_call_chain(KBD_UNBOUND_KEYCODE,¶ms);
37 return;
38 }
39
40 if (unicode) {
41 param.value = unicode;
42 if (notifier_call_chain(KBD_UNICODE,¶ms) == NOTIFY_STOP)
43 return;
44 emit unicode;
45 return;
46 }
47
48 params.value = keysym;
49 if (notifier_call_chain(KBD_KEYSYM,¶ms) == NOTIFY_STOP)
50 return;
51 apply keysym;
52 notifier_call_chain(KBD_POST_KEYSYM,¶ms);
53 }
54
55.. note:: This notifier is usually called from interrupt context.
1=================
2Keyboard notifier
3=================
4
5One can use register_keyboard_notifier to get called back on keyboard
6events (see kbd_keycode() function for details). The passed structure is
7keyboard_notifier_param (see <linux/keyboard.h>):
8
9- 'vc' always provide the VC for which the keyboard event applies;
10- 'down' is 1 for a key press event, 0 for a key release;
11- 'shift' is the current modifier state, mask bit indexes are KG_*;
12- 'ledstate' is the current LED state;
13- 'value' depends on the type of event.
14
15- KBD_KEYCODE events are always sent before other events, value is the keycode.
16- KBD_UNBOUND_KEYCODE events are sent if the keycode is not bound to a keysym.
17 value is the keycode.
18- KBD_UNICODE events are sent if the keycode -> keysym translation produced a
19 unicode character. value is the unicode value.
20- KBD_KEYSYM events are sent if the keycode -> keysym translation produced a
21 non-unicode character. value is the keysym.
22- KBD_POST_KEYSYM events are sent after the treatment of non-unicode keysyms.
23 That permits one to inspect the resulting LEDs for instance.
24
25For each kind of event but the last, the callback may return NOTIFY_STOP in
26order to "eat" the event: the notify loop is stopped and the keyboard event is
27dropped.
28
29In a rough C snippet, we have::
30
31 kbd_keycode(keycode) {
32 ...
33 params.value = keycode;
34 if (notifier_call_chain(KBD_KEYCODE,¶ms) == NOTIFY_STOP)
35 || !bound) {
36 notifier_call_chain(KBD_UNBOUND_KEYCODE,¶ms);
37 return;
38 }
39
40 if (unicode) {
41 param.value = unicode;
42 if (notifier_call_chain(KBD_UNICODE,¶ms) == NOTIFY_STOP)
43 return;
44 emit unicode;
45 return;
46 }
47
48 params.value = keysym;
49 if (notifier_call_chain(KBD_KEYSYM,¶ms) == NOTIFY_STOP)
50 return;
51 apply keysym;
52 notifier_call_chain(KBD_POST_KEYSYM,¶ms);
53 }
54
55.. note:: This notifier is usually called from interrupt context.