Unlike current xkbcommon, X11’s xkbcomp allows to remove entries in
the modifiers’ map using “modifier_map None { … }”.
“None” is translated to the special value “XkbNoModifier” defined in
“X11/extensions/XKB.h”. Then it relies on the fact that in "CopyModMapDef",
the following code:
1U << entry->modifier
ends up being zero when “entry->modifier” is “XkbNoModifier” (i.e. 0xFF).
Indeed, it relies on the overflow behaviour of the left shift, which in
practice resolves to use only the 5 low bits of the shift amount, i.e.
0x1F here. Then the result of “1U << 0xFF” is cast to “char”, i.e. 0.
This is a good trick but too magical, so in libxkbcommon we will use
an explicit test against our new constant XKB_MOD_NONE.
xkbcomp only accepts the "Level" prefix for a level name for levels 1 to
8, but the keymap dumping code added it always, e.g. "Level15".
The plain integer, e.g. "8", "15" is always accepted, so just use that.
Fixes https://github.com/xkbcommon/libxkbcommon/issues/113
Signed-off-by: Ran Benita <ran@unusedvar.com>
Reported-by: progandy
The `test/data/keymaps/host.xkb` file contains a duplicate definition of
this type. On my computer (linux, xkbcomp 1.3.0, xserver 1.17.2), the
test passes as is, but if I remove the duplicate definition, the
roundtrip brings it back and the test fails. I can also reproduce it
without relation to the test, by loading `test/data/keymaps/host.xkb`
(without the duplicate) using
xkbcomp -I $(pwd)/test/data/keymaps/host.xkb $DISPLAY
and downloading it again using
xkbcomp $DISPLAY out.xkb
the duplicate is added. On Mac OS X however, the duplicate is removed
(correctly), so the test fails there.
xkbcommon itself, which was forked from xkbcomp, doesn't have this bug;
in fact, doing
./test/print-compiled-keymap -k keymaps/host.xkb
removes the duplicate if it is present.
This is (probably) a regression in xkbcomp or xserver compared to the
versions used in Mac OS X. Since getting a patch for any of these two is
hopeless from my experience, I did not try to investigate further.
I am not sure why, but if I also add a `PC_SUPER_LEVEL2` type, the
duplicate of `FOUR_LEVEL_KEYPAD` doesn't show up. Hopefully the test
will work on all platforms now.
https://github.com/xkbcommon/libxkbcommon/issues/26
Reported-by: @nuko8
Signed-off-by: Ran Benita <ran234@gmail.com>
If the keymap doesn't have any key-aliases (which is certainly
possible), the calloc(num_key_aliases, ...) is allowed to return NULL
according to the C standard, but this is not an error.
Signed-off-by: Ran Benita <ran234@gmail.com>
It is like test/stringcomp, only instead of using
xkb_keymap_new_from_string(), it uses xkbcomp to upload the keymap to a
dummy Xvfb X server and then xkb_x11_keymap_new_from_device().
If any of these components are not present or fails, the test is shown
as skipped.
The test is messy, fragile, limited and depends on external tools, but I
will improve on that later -- it's better to have a test.
Signed-off-by: Ran Benita <ran234@gmail.com>
With the following two rules:
InterpretDecl : INTERPRET InterpretMatch OBRACE
VarDeclList
CBRACE SEMI
{ $2->def = $4; $$ = $2; }
;
InterpretMatch : KeySym PLUS Expr
{ $$ = InterpCreate($1, $3); }
| KeySym
{ $$ = InterpCreate($1, NULL); }
;
And the fact that InterpCreate doesn't initialize ->def, if the
VarDeclList fails, the %destructor tries to recursively free the
uninitialized ->def VarDef. So always initialize it.
That was the only problematic code in the parser for %destructor (I'm
pretty sure).
Signed-off-by: Ran Benita <ran234@gmail.com>
We didn't really have any. It also a exposes a memory leak, since the
parser doesn't clean up the AST nodes of the discarded symbols.
Signed-off-by: Ran Benita <ran234@gmail.com>
It's the same as no flags, so might as well not print it.
(In fact it is slightly harmful, because it actively *clears* the affect
flags, which might have been set in some other manner. But in practice
this cannot happen).
Signed-off-by: Ran Benita <ran234@gmail.com>
Some keymaps actually have this, like the quartz.xkb which is tested. We
need to support these.
https://bugs.freedesktop.org/show_bug.cgi?id=67654
Reported-By: Gatis Paeglis <gatis.paeglis@digia.com>
Signed-off-by: Ran Benita <ran234@gmail.com>
If the keycode range is smaller than 8 → 255, artifically widen it when
dumping the keymap as not to displease X.
Signed-off-by: Daniel Stone <daniel@fooishbar.org>
xkbcomp doesn't indent there, so it's easier to diff.
Also saves some horizontal space which is sorely needed when looking at
these files (especially the xkb_symbols).
Signed-off-by: Ran Benita <ran234@gmail.com>
Recent xkeyboard-config introduced the following line in symbols/level3:
vmods = LevelThree,
However, the XKM format which xkbcomp produces for the X server can't
handle explicit virtual modifiers such as this:
https://bugs.freedesktop.org/show_bug.cgi?id=4927
So by doing the following, for example:
setxkbmap -layout de (or another 3-level layouts)
xkbcomp $DISPLAY out.xkb
xkbcomp out.xkb $DISPLAY
The modifier is lost and can't be used for switching to Level3 (see the
included test).
We, however, are affected worse by this bug when we load the out.xkb
keymap. First, the FOUR_LEVEL_ALPHABETIC key type has these entries:
map[None] = Level1;
map[Shift] = Level2;
map[Lock] = Level2;
map[LevelThree] = Level3;
[...]
Now, because the LevelThree virtual modifier is not bound to anything,
the effective mask of the "map[LevelThree]" entry is just 0. So when
the modifier state is empty (initial state), this entry is chosen, and
we get Level3, instead of failing to match any entry and getting the
default Level1.
The difference in behavior from the xserver stems from this commit:
acdad6058d
Which removed the entry->active field. Without bugs, this would be
correct; however, it seems in this case we should just follow the
server's behavior.
The server sets the entry->active field like so in XKBMisc.c:
/* entry is active if vmods are bound */
entry->active = (mask != 0);
The xkblib spec explains this field, but does not specify how to
initialize it. This commit does the same as above but more directly.
Signed-off-by: Ran Benita <ran234@gmail.com>
This rule allows you to put several xkb_keymaps in one file.
This doesn't make any sense: only the default/first can ever be used,
yet the others are fully parsed as well.
Different keymaps should just be put in different files.
Signed-off-by: Ran Benita <ran234@gmail.com>
These statements are pretty pointless for us; we don't restrict keycodes
like X does, and if someone writes e.g. maximum = 255 but only has 100
keys, we currently happily alloc all those empty keys. xkbcomp already
handles the case when these statements aren't given, and uses a computed
min/max instead. We should just always use that.
(Of course since keycodes/evdev currently uses almost all of the
keycodes in the range it declares, including 255, this doesn't save any
memory for the common user right now).
Signed-off-by: Ran Benita <ran234@gmail.com>
Group compatibility statements are like the following:
group 3 = AltGr;
This currently results in:
keymap->groups[2].mask = <real mod mapped from AltGr vmod>
And we don't do any thing with this value later. The reason it exists in
XKB is to support non-XKB clients (i.e. XKB support disabled entirely in
the server), which do not know the concept of "group", and use some
modifier to distinguish between the first and second keyboard layouts
(usually with the AltGr key). We don't care about all of that, so we can
forget about it.
One artifact of this removal is that xkb_map_num_groups no longer
works, because it counted through keymap->groups (this wasn't entirely
correct BTW). Instead we add a new num_groups member to the keymap,
which just hold the maximum among the xkb_key's num_groups. This also
means we don't have to compute anything just to get the number of
groups.
Signed-off-by: Ran Benita <ran234@gmail.com>
This field is used in conjunction with key behaviors, which we don't
support since c1ea23da5. This is also unused in xkeyboard-config.
Signed-off-by: Ran Benita <ran234@gmail.com>
Recreate the old test/dump scenario, where we test the following map:
- rules: evdev
- model: pc104
- layout #1: us
- layout #2: ru
- layout #3: ca(multix)
- layout #4: de(neo)
This is ever so slightly altered from the xkbcomp output; running the
following:
setxkbmap -rules evdev -model pc105 -layout us,ru,ca,de -variant
,,multix,neo -print | xkbcomp -xkb - -
will give you a map with RCTL added to the modifier_map for both Control
and Mod3. Running the output through xkbcomp -xkb - - again, will give
you RCTL only added to Mod3.
Signed-off-by: Daniel Stone <daniel@fooishbar.org>
As a map will implicitly go to level one unless explicitly mentioned
otherwise, remove all explicit =Level1 mappings, except for those with
preserve entries.
Signed-off-by: Daniel Stone <daniel@fooishbar.org>
Bring the input file into line with recent changes to the dump output,
so we're as close as we can get to a round trip.
Signed-off-by: Daniel Stone <daniel@fooishbar.org>
If there is no map entry for some modifier combination, the default is
to use level 1. The removed code is an optimization to save some space
by removing these entries. But it doesn't actually save any space, and
did not in fact remove all level 1 entries (it walks the array while
modifying it so there's an off-by-one error).
We can instead keep them in the types but just not print them in
keymap-dump.c, to get about the same behavior.
Signed-off-by: Ran Benita <ran234@gmail.com>
Xkb required every keymap to have at least the four following canonical
types: ONE_LEVEL, TWO_LEVEL, ALPHABETIC, KEYPAD. This is specified in
e.g. the kbproto spec and XkbKeyTypesForCoreSymbols(3) man page.
If these types are not specified in the keymap, the code specifically
checks for them and adds them to the 4 first places in the types array,
such that they exist in every keymap. These are also the types (along
with some non-required 4-level ones) that are automatically assigned to
keys which do not explicitly declare a type (see FindAutomaticType in
symbols.c, this commit doesn't touch these heuristics, whcih are also not
very nice but necessary).
The xkeyboard-config does not rely on the builtin xkbcomp definitions of
these types and does specify them explicitly, in types/basic and
types/numpad, which are virtually always included.
This commit removes the special behavior:
- The code is ugly and makes keytypes.c harder to read.
- The code practically never gets run - everyone who uses
xkeyboard-config or a keymap based upon it (i.e. everyone) doesn't need
it. So it doesn't get tested.
- It mixes policy with implementation for not very good reasons, it
seems mostly for default compatibility with X11 core.
- And of course we don't need to remain compatible with Xkb ABI neither.
Instead, if we read a keymap with no types specified at all, we simply
assign all keys a default one-level type (like ONE_LEVEL), and issue
plenty of warnings to make it clear (with verbosity >= 3). Note that
this default can actually be changed from within the keymap, by writing
something like
type.modifier = Shift
type.whatever_field = value
in the top level of the xkb_types section. (This functionality is
completely unused as well today, BTW, but makes some sense).
This change means that if someone writes a keymap from scratch and
doesn't add say ALPHABETIC, then something like <AE11> = { [ q Q ]; }; will
ignore the second level. But as stated above this should never happen.
Signed-off-by: Ran Benita <ran234@gmail.com>
Readd the component names to the keymap->names struct. This is used when
printing the component, e.g.
xkb_keymap {
xkb_keycodes "evdev+aliases(qwerty)" {
instead of
xkb_keymap {
xkb_keycodes {
This makes diffing against xkbcomp $DISPLAY a bit easier and is kind of
useful anyway.
Signed-off-by: Ran Benita <ran234@gmail.com>
The code used to match a keysym to a keycode (see added comment)
differed in behavior from xkbcomp, always taking the first key it found.
This caused some incorrect interpretation of the xkeyboard-config data,
for example the one corrected in dump.data (see the diff): since the
de-neo layout sets the both_capslock option, the Left Shift key (LFSH)
has the Caps_Lock keysym in group 4 level 2; now since
keycode(Left Shift) = 50 < keycode(Caps Lock) = 64
the Left Shift one was picked, instead of the Caps Lock one which is
group 1 level 1. The correct behavior is to pick according to group,
level, keycode.
Signed-off-by: Ran Benita <ran234@gmail.com>
Use a self-contained dataset instead of relying on a globally-installed
set. Data taken from xkeyboard-config 2.5.1.
Signed-off-by: Daniel Stone <daniel@fooishbar.org>