The warnings corrected were only the ones that should correct
real problems. The most common one is 64 bit integers as
"printf %l" arguments.
Note that there is a patch related to this at:
http://bugs.freedesktop.org/show_bug.cgi?id=18204
This is the biggest "visibility" patch. Instead of doing a "export"
symbol on demand, export everything in the sdk, so that if some module
fails due to an unresolved symbol, it is because it is using a symbol
not in the sdk.
Most exported symbols shouldn't really be made visible, neither
advertised in the sdk, as they are only used by a single shared object.
Symbols in the sdk (or referenced in sdk macros), but not defined
anywhere include:
XkbBuildCoreState()
XkbInitialMap
XkbXIUnsupported
XkbCheckActionVMods()
XkbSendCompatNotify()
XkbDDXFakePointerButton()
XkbDDXApplyConfig()
_XkbStrCaseCmp()
_XkbErrMessages[]
_XkbErrCode
_XkbErrLocation
_XkbErrData
XkbAccessXDetailText()
XkbNKNDetailMaskText()
XkbLookupGroupAndLevel()
XkbInitAtoms()
XkbGetOrderedDrawables()
XkbFreeOrderedDrawables()
XkbConvertXkbComponents()
XkbWriteXKBSemantics()
XkbWriteXKBLayout()
XkbWriteXKBKeymap()
XkbWriteXKBFile()
XkbWriteCFile()
XkbWriteXKMFile()
XkbWriteToServer()
XkbMergeFile()
XkmFindTOCEntry()
XkmReadFileSection()
XkmReadFileSectionName()
InitExtInput()
xf86CheckButton()
xf86SwitchCoreDevice()
RamDacSetGamma()
RamDacRestoreDACValues()
xf86Bpp
xf86ConfigPix24
xf86MouseCflags[]
xf86SupportedMouseTypes[]
xf86NumMouseTypes
xf86ChangeBusIndex()
xf86EntityEnter()
xf86EntityLeave()
xf86WrapperInit()
xf86RingBell()
xf86findOptionBoolean()
xf86debugListOptions()
LoadSubModuleLocal()
LoaderSymbolLocal()
getInt10Rec()
xf86CurrentScreen
xf86ReallocatePciResources()
xf86NewSerialNumber()
xf86RandRSetInitialMode()
fbCompositeSolidMask_nx1xn
fbCompositeSolidMask_nx8888x0565C
fbCompositeSolidMask_nx8888x8888C
fbCompositeSolidMask_nx8x0565
fbCompositeSolidMask_nx8x0888
fbCompositeSolidMask_nx8x8888
fbCompositeSrc_0565x0565
fbCompositeSrc_8888x0565
fbCompositeSrc_8888x0888
fbCompositeSrc_8888x8888
fbCompositeSrcAdd_1000x1000
fbCompositeSrcAdd_8000x8000
fbCompositeSrcAdd_8888x8888
fbGeneration
fbIn
fbOver
fbOver24
fbOverlayGeneration
fbRasterizeEdges
fbRestoreAreas
fbSaveAreas
composeFunctions
VBEBuildVbeModeList()
VBECalcVbeModeIndex()
TIramdac3030CalculateMNPForClock()
shadowBufPtr
shadowFindBuf()
miRRGetScreenInfo()
RRSetScreenConfig()
RRModePruneUnused()
PixmanImageFromPicture()
extern int miPointerGetMotionEvents()
miClipPicture()
miRasterizeTriangle()
fbPush1toN()
fbInitializeBackingStore()
ddxBeforeReset()
SetupSprite()
InitSprite()
DGADeliverEvent()
SPECIAL CASES
o defined as _X_INTERNAL
xf86NewInputDevice()
o defined as static
fbGCPrivateKey
fbOverlayScreenPrivateKey
fbScreenPrivateKey
fbWinPrivateKey
o defined in libXfont.so, but declared in xorg/dixfont.h
GetGlyphs()
QueryGlyphExtents()
QueryTextExtents()
ParseGlyphCachingMode()
InitGlyphCaching()
SetGlyphCachingMode()
Previously each server starting ran xkbcomp with the output set to
<keymapname>.xkm, read it, then deleted it - which led to races if
two servers were starting at the same time with the same keymap.
Sun bug #6773816 Xorg uses the same xkm output file for compiled keymap file
<http://bugs.opensolaris.org/bugdatabase/view_bug.do?bug_id=6773816>
If the event is an XI event, we need to work on the correct device, not on
the VCK.
Adds XIGetDevice(event) function to extract the device from an event.
When MouseKeys are activated, keyboard devices may generate fake mouse button
events through XKB. Let's get then running through the appropriate paths, i.e.
as XI events on the correct device.
To make matters more fun, ProcessOtherEvents drops events if the DIX device
state cannot be updated accordingly, i.e. all button events from keyboard
devices.
Hence we need to get the paired MD for the device in XkbDDXFakeDeviceButton,
and post the event through the paired MD (usually the VCP).
Removes now-unused ddxFakeBtn.c.
Note: this patch only half-arsedly fixed button events, motion events are a
more complicated matter.
A couple of coding style cleanups, a warning fix via removing a
now-unused label, and also put an else so we don't spuriously trip a
condition that should admittedly never occur anyway.
Signed-off-by: Peter Hutterer <peter.hutterer@redhat.com>
newTypes is a local variable which always has an address. newTypesIn,
on the other hand, might be sus.
See also 5544c51447.
Signed-off-by: Peter Hutterer <peter.hutterer@redhat.com>
Was doing only dry-runs, which kinda explains why changing the compat map
didn't really have any effect.
Fallout from e8c2a3d7c9.
Signed-off-by: Peter Hutterer <peter.hutterer@redhat.com>
If we update key types from core, and groups 2 - n have a canonical type but
the same symbols as the explicit type of group 1, assume that it was a core
sym duplication according to Section 12.4 of the XKB Protocol Spec.
Ignore the canonical types and pretend there's only one group for the key -
with the explicit key type.
The protocol spec does not cover this case, so we have to guess here.
According to Section 12.4 of the XKB Protocol Spec, if a key only has a single
group but the keyboard has multiple groups defined, the core description of
the key is a duplication of the single group across all symbols. i.e.
G1L1 G1L2 G1L1 G1L2 G1L3 G1L4 G1L3 G1L4
The previous code generated G1L1 G1L2 G1L3 G1L4 G1L3 G1L4, leading to
"invented" groups when the process is reversed.
Note that this creates wrong key types on reconstruction from core to xkb,
i.e. any single-group key with a key type that is not one of the canonical
four (Sec 12.2.3), will get the assigned type on group 1, and a canonical type
for the other gruops.
X.Org Bug 14373 <http://bugs.freedesktop.org/show_bug.cgi?id=14373>
If called with XkbUseCoreKbd, run through all attached SDs and replicate the
call. This way, we keep the SDs in sync with the MD as long as core clients
control the MDs.
If called with XkbUseCoreKbd, run through all attached SDs and replicate the
call. This way, we keep the SDs in sync with the MD as long as core clients
control the MDs.
If called with XkbUseCoreKbd, run through all attached SDs and replicate the
call. This way, we keep the SDs in sync with the MD as long as core clients
control the MDs.
If called with XkbUseCoreKbd, run through all attached SDs and replicate the
call. This way, we keep the SDs in sync with the MD as long as core clients
control the MDs.
If called with XkbUseCoreKbd, run through all attached SDs and replicate the
call. This way, we keep the SDs in sync with the MD as long as core clients
control the MDs.
If called with XkbUseCoreKbd, run through all attached SDs and replicate the
call. This way, we keep the SDs in sync with the MD as long as core clients
control the MDs.
If called with XkbUseCoreKbd, run through all attached SDs and replicate the
call. This way, we keep the SDs in sync with the MD as long as core clients
control the MDs.
If called with XkbUseCoreKbd, run through all attached SDs and replicate the
call. This way, we keep the SDs in sync with the MD as long as core clients
control the MDs.
device->button->down used to be a 32-byte bitmask with one bit for each
button. This has changed into a 256-byte array, with one byte assigned for
each button. Some of the callers were still using this array as a bitmask
however, this is fixed with this patch.
Thanks to Keith Packard for pointing this out. See also:
http://lists.freedesktop.org/archives/xorg/2008-June/036202.html
We only have one set of default rules options in xkb. When the second keyboard
is brought up with Xkb options specified, these new options overwrite the old.
In future server generations, the rules used for the VCK are a mixture of the
default ones and ones previously specified for other keyboards. Simply
resetting the xkb default rules to NULL avoids this issue.
Reproducable by setting XkbLayout "de" and XkbVariant "nodeadkeys". In the
second server generation, the VCK has "us(nodeadkeys)". This again produces a
SIGABRT when the first key is hit.
I could not figure out why the SIGABRT happens. This patch is avoiding the
issue rather than fixing it.
Conflicts:
Xext/xprint.c (removed in master)
config/hal.c
dix/main.c
hw/kdrive/ati/ati_cursor.c (removed in master)
hw/kdrive/i810/i810_cursor.c (removed in master)
hw/xprint/ddxInit.c (removed in master)
xkb/ddxLoad.c
When something went wrong building a keymap, try to explain to the user
what it actually was, instead of the dreaded 'Failed to load XKB keymap'
catch-all.
- map can be NULL in some cases, so don't try to dereference it.
- don't default to inputInfo.keyboard
This is firefighting, I presume something in the class copy may have gone
wrong to get a NULL map in the first instance?
XkbFinishDeviceInit is called once when the device is initialised, but also
when a class copy causes the key class of a device to change. In this case, overwriting the CtrlProc of the KeybdFeedbackClass with XkbDDXKeybdCtrlProc sets up a nice recursive loop of XkbDDXKeybdCtrlProc calling itself until the cows come home.
If input processing is frozen, only wrap realInputProc: don't smash
processInputProc as well. When input processing is thawed, pIP will be
rewrapped correctly.
This supersedes the previous workaround in 50e80c9.
Signed-off-by: Daniel Stone <daniel@fooishbar.org>
An astute observer will note that the entirety of XkbCopyKeymap is indented
with spaces, and no tabs whatsoever, and not commit changes which break the
otherwise consistent indentation.
A non-astute observer will note the breakage when the commit mail comes
through with clearly broken indentation.
A polite, non-astute, observer will then fix it.
C'est la vie.
Due to an unwitting sense inversion when eliminating XkbFileInfo, we were
setting the complete wrong keymap on startup (non-XKB map if we had an XKB
map available, or the XKB map if we didn't have any available). Invert the
sense properly, and add two small bits that also went missing in that commit.
Sorry about the megacommit, but this touches on a lot of stuff.
Get rid of XkbFileInfo, which was pretty seriously redundant, and move the
only useful thing it had (defined) into XkbDescRec. defined will be removed
pretty soon anyway. Is the compat map pointer non-NULL? Then you have a
compat map, congratulations! Anyhow, I digress.
All functions that took an XkbFileInfoPtr now take an XkbDescPtr, _except_
XkmReadFile, which returns an XkbDescPtr *, because people want to deal in
XkbDescPtrs, not XkbDescRecs.
We were forgetting to set the sizes for sections and rows and a couple of
other misc bits in XkbCopyKeymap's geometry. Sort that out, and add a
couple of clarifying comments along the way.
We need to start breaking the XKB API to enforce sanity, so drag whichever
headers we need to do so into the server tree, as the client API is set in
stone, being part of Xlib.
It actually does help if a pointer is NULL rather than pointing to nirvana
when you're trying to free it lateron. Who would have thought?
(cherry picked from commit 7a97ca667405a42d008265c3a870210cc1da97dd)
In some weird cases we call this function when there is no SrvLedInfo on the
device. And it turns out null-pointer dereferences are bad.
X.Org Bug 13961 <http://bugs.freedesktop.org/show_bug.cgi?id=13961>
Don't run VT switches, terminations, or anything, on the core keyboard: only
run actions which affect the keyboard state. If we get an action such as VT
switch, just swallow the event.
If a slave device is attached to a master device, then we need to send a
mapping notify to the client.
Mapping notify needs to be sent if
- different slave device but on same master
- different master
This gives you funny behaviour with the ClientPointer. When a
MappingNotify is sent to the client, the client usually responds with a
GetKeyboardMapping. This will retrieve the ClientPointer's keyboard mapping,
regardless of which keyboard sent the last mapping notify request. So
depending on the CP setting, your keyboard may change layout in each app...
Haven't quite figured out yet how to make these repeats work. Because we share
the class between devices, the key state is already set when we process the
master device's event, causing a repeat on each event.
Cope with Xi and pointer events in the (now increasingly misnamed)
XkbProcessKeyboardEvent. If it's the wrong type, call through the wrapping
chain to get out; else, process it.
Don't get XkbUpdateIndicators to update the indicators on all our devices: we
already deal with that ourselves.
Add exevents.h include to get more (proto)types.
Instead of hardcoding CoreProcessPointerEvent, actually try to unwrap properly
and then call the unwrapped processInputProc. Seems to be a better idea,
especially since it makes stuff actually work...
(cherry picked from commit 8f9bf927e1)
XI events can now take the same processing paths as core events, and should do
the correct state changes etc.
There's some cases where XKB will use KeyPress as type for an event to be
delivered to the client. Stuck warnings in, not sure what the correct solution
is yet.
(cherry picked from commit 6334d4e7be with some
additional compile fixes and non-MPX adaptations)
using a hardcoded ProcessKeyboardEvent. Otherwise we lose the ability to
process DeviceKeyEvents after the first key press.
This should be the correct fix now.
(cherry picked from commit 4d5df14f2c)
Using a global array for action filters is bad. If two keyboard hit a modifier
at the same time, releaseing the first one will deactivate the filter and
thus the second keyboard can never release the modifier again.
(cherry picked from commit bfe6b4d2d9)
Removes "LookupKeyboardDevice" and "LookupPointerDevice" in favor of
inputInfo.keyboard and inputInfo.pointer, respectively; all use cases
are non-XI compliant anyway.
Instead of hardcoding CoreProcessPointerEvent, actually try to unwrap properly
and then call the unwrapped processInputProc. Seems to be a better idea,
especially since it makes stuff actually work...
XI events can now take the same processing paths as core events, and should do
the correct state changes etc.
There's some cases where XKB will use KeyPress as type for an event to be
delivered to the client. Stuck warnings in, not sure what the correct solution
is yet.
Using a global array for action filters is bad. If two keyboard hit a modifier
at the same time, releaseing the first one will deactivate the filter and
thus the second keyboard can never release the modifier again.
over to new system.
Need to update documentation and address some remaining vestiges of
old system such as CursorRec structure, fb "offman" structure, and
FontRec privates.
XkbCopyKeymap reallocates the destination keymap when it is not large enough
to hold the source data. When reallocating the map->types data, it needs to
zero out the new entries. The computation for where to start bzero'ing was
accounting for the size of the data type twice, once implicitly in the
pointer arithmetic, and once explicitly with '* sizeof (XkbKeyTypeRec)'.
This would often lead to random memory corruption when the destination
keymap had existing map->types data.
using a hardcoded ProcessKeyboardEvent. Otherwise we lose the ability to
process DeviceKeyEvents after the first key press.
This should be the correct fix now.
The former <X11/extensions/XKBsrv.h> has been pulled into the server now as
include/xkbsrv.h, and the world updated to look for it in the new place,
since it made no sense to define server API in an extension header. Any
further work along this line will need to do similar things with XKBgeom.h
and friends.
otherwise a Xi grab may overwrite or release a core grab.
Replace grab and associates with coreGrab and deviceGrab structures,
adjust rest of dix/Xi/etc to compile.
xfree86: Don't check for core devices, we'll have the virtual ones anyway.
If we check, the first mouse device is duplicated and sends
double events.
When we reallocated modmap, we accidentally clobbered syms with the
result, leaving syms definitely too small, and modmap also potentially too
small (as well as not actually allocated anymore).
bugfix: uninitialized pPointer in miPointerGetPosition ifndef MPX
adding DeviceIntPtr parameter to ScreenRec's cursor functions.
cleanup of miPointer code to use same scheme in each function
dix: MPHasCursor() function determines checking whether to invoke
cursor rendering.
animcur: adding DeviceIntPtr parameter to cursor functions but animcur relies
on the core pointer right now.
xfixes: adding DeviceIntPtr parameter to cursor functions but xfixes relies on
the core pointer right now.
rac: adding DeviceIntPtr parameter to cursor functions but RAC relies on
the core pointer right now.
ramdac: adding DeviceIntPtr parameter to cursor functions but ramdac relies on
the core pointer right now.
added SpriteRecs for MPX devices
changed sprite dependency and added MPX functionality to parts
of events.c (ConfineToShape, PostNewCursor, XineramaCheckMotion,
CheckMotion, XineramaChangeToCursor, ChangeToCursor, CheckPhysLimits,
PointerConfinedToScreen)
added DeviceIntRec param to GetSpritePosition(). This required some
minor changes in ddx, xtest, xkb and xfixes.
mi: changed miPointer to pointer instead of static struct.
Take various extra precautions with copying levels across (thanks Chris
Lee for a gdb session), including allocating when we don't already have a
coherent map.
Only free type components if they're present.
Allocate geometry and compat components if we don't already have them in
the dest map.
Compute virtual modmap size bounded by nVModMapKeys-1, rather than
nVModMapKeys.
This is sort of a best guess. The other way seems a little more
logical, but also leads to segfaults pretty quickly if you hammer
GetMap hard enough. So let's try this one.
Forgot that all XKB requests took a device spec: the comparison of
'if working on the core keyboard, does this device send core events; or,
is this device the core keyboard?' was broken. Instead, what we want is
'if working on the core keyboard, does this device send core events; or,
is this device the one we're working on?'.
XKB.h specifies that XkbDfltXIId should be used where the client doesn't
care about the device identifier. We take this to mean core devices,
where practical.
Fix a bunch of range issues caused by incorrect assumptions (e.g. that the
design was at least halfway sensible), and copy types by hand, instead of
just blindly memcpy()ing the lot, since it itself cleverly contains a ton
of allocated pointers.
Get rid of almost all uses of these definitions. They're still defined for
delinquent out-of-tree drivers, and also for the Mesa build. As well as
for miinitext.c. But largely gone.
New files linked:
xorgconf.cpp Options
usb.3 usb_hid_usages
lynx_ppc.S
BUSmemcpy.S IODelay.S PortIO.S SlowBcopy.S
sun_inout.s
xaaTEGlyphBlt.S
xkbcomp/compiled/README
New files excluded:
All of lib/GL/apple
xlibi18n/*/*.mapfile
xxserver/xorg/configure.ac, xkb/Makefile.am:
Install README.compiled in the xkb output dir
it doesn't already exist. (ported from Solaris Xsun bug #5039004)
When BuildLikeSun is set, define MAKE_XKM_OUTPUT_DIR and set the xkb output
directory to /var/run/xkb.
Add XSERV_t, TRANS_SERVER, TRANS_REOPEN to quash warnings.
Add #include <dix-config.h> or <xorg-config.h>, as appropriate, to all
source files in the xserver/xorg tree, predicated on defines of
HAVE_{DIX,XORG}_CONFIG_H. Change all Xfont includes to
<X11/fonts/foo.h>.
<X11/...>
- For Xcomposite and Xdamage, don't link the build system out of the xc
tree
- Link the public X11 headers into their own directory
- Add links to XKeysymDB and XErrorDB
- Add links to all the Xlib man pages
- Add links to the lcUniConv subdirectory
- Conditionally include config.h in Xlib source
change "foo.h" to <X11/foo.h> for core headers, e.g. X.h, Xpoll.h;
change "foo.h", "extensions/foo.h" and "X11/foo.h" to
<X11/extensions/foo.h> for extension headers, e.g. Xv.h;
change "foo.[ch]" to <X11/Xtrans/foo.[ch]> for Xtrans files.
//bugs.freedesktop.org/show_bug.cgi?id=2245) attachment #1647
(https://bugs.freedesktop.org/attachment.cgi?id=1647): export
Win32System and Win32TempDir remove #ifdef WIN32 block for building
xkbcomp commandline create win32 tempfile in system tempdir use
PATH_MAX*4 for commandline buffer unlink tmpfile again
(https://bugs.freedesktop.org/attachment.cgi?id=1645): cleanup some
#ifdef __UNIXOS2__ and WIN32 blocks. make OutputDirectory check the
size of the buffer quote all file and pathnames in the xkbcomp
commandline use PATH_MAX*4 for commandline buffer
Updating to EDID 1.3. (Bugzilla# 1490, Jay Cotton, Egbert Eich).
Removing unneeded code.
Fixed KGA handling for i810. KGA handling for chips derived from C&T chips
is slightly different. The changes make the code consistent with the
C&T (chips) and i740 drivers.