#ifdef HAVE_DIX_CONFIG_H
#include <dix-config.h>
#endif
#include <stdio.h>
#include <X11/Xos.h>
#include <X11/Xfuncs.h>
#include <X11/X.h>
#define NEED_EVENTS
#include <X11/Xproto.h>
#include <X11/keysym.h>
#include "misc.h"
#include "inputstr.h"
#include "xkbstr.h"
#include "xkbsrv.h"
#include "xkbgeom.h"
Atom
XkbInternAtom(char *str,Bool only_if_exists)
{
if (str==NULL)
return None;
return MakeAtom(str,strlen(str),!only_if_exists);
}
char *
_XkbDupString(char *str)
{
char *new;
if (str==NULL)
return NULL;
new= (char *)_XkbCalloc(strlen(str)+1,sizeof(char));
if (new)
strcpy(new,str);
return new;
}
static void *
XkmInsureSize(void *oldPtr,int oldCount,int *newCountRtrn,int elemSize)
{
int newCount= *newCountRtrn;
if (oldPtr==NULL) {
if (newCount==0)
return NULL;
oldPtr= _XkbCalloc(newCount,elemSize);
}
else if (oldCount<newCount) {
oldPtr= _XkbRealloc(oldPtr,newCount*elemSize);
if (oldPtr!=NULL) {
char *tmp= (char *)oldPtr;
bzero(&tmp[oldCount*elemSize],(newCount-oldCount)*elemSize);
}
}
else if (newCount<oldCount) {
*newCountRtrn= oldCount;
}
return oldPtr;
}
#define XkmInsureTypedSize(p,o,n,t) ((p)=((t *)XkmInsureSize((char *)(p),(o),(n),sizeof(t))))
static CARD8
XkmGetCARD8(FILE *file,int *pNRead)
{
int tmp;
tmp= getc(file);
if (pNRead&&(tmp!=EOF))
(*pNRead)+= 1;
return tmp;
}
static CARD16
XkmGetCARD16(FILE *file,int *pNRead)
{
CARD16 val;
if ((fread(&val,2,1,file)==1)&&(pNRead))
(*pNRead)+= 2;
return val;
}
static CARD32
XkmGetCARD32(FILE *file,int *pNRead)
{
CARD32 val;
if ((fread(&val,4,1,file)==1)&&(pNRead))
(*pNRead)+= 4;
return val;
}
static int
XkmSkipPadding(FILE *file,unsigned pad)
{
register int i,nRead=0;
for (i=0;i<pad;i++) {
if (getc(file)!=EOF)
nRead++;
}
return nRead;
}
static int
XkmGetCountedString(FILE *file,char *str,int max_len)
{
int count,nRead=0;
count= XkmGetCARD16(file,&nRead);
if (count>0) {
int tmp;
if (count>max_len) {
tmp= fread(str,1,max_len,file);
while (tmp<count) {
if ((getc(file))!=EOF)
tmp++;
else break;
}
}
else {
tmp= fread(str,1,count,file);
}
nRead+= tmp;
}
if (count>=max_len) str[max_len-1]= '\0';
else str[count]= '\0';
count= XkbPaddedSize(nRead)-nRead;
if (count>0)
nRead+= XkmSkipPadding(file,count);
return nRead;
}
static int
ReadXkmVirtualMods(FILE *file,XkbDescPtr xkb,XkbChangesPtr changes)
{
register unsigned int i,bit;
unsigned int bound,named,tmp;
int nRead=0;
if (XkbAllocServerMap(xkb,XkbVirtualModsMask,0)!=Success) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmVirtualMods",0);
return -1;
}
bound= XkmGetCARD16(file,&nRead);
named= XkmGetCARD16(file,&nRead);
for (i=tmp=0,bit=1;i<XkbNumVirtualMods;i++,bit<<=1) {
if (bound&bit) {
xkb->server->vmods[i]= XkmGetCARD8(file,&nRead);
if (changes)
changes->map.vmods|= bit;
tmp++;
}
}
if ((i= XkbPaddedSize(tmp)-tmp)>0)
nRead+= XkmSkipPadding(file,i);
if (XkbAllocNames(xkb,XkbVirtualModNamesMask,0,0)!=Success) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmVirtualMods",0);
return -1;
}
for (i=0,bit=1;i<XkbNumVirtualMods;i++,bit<<=1) {
char name[100];
if (named&bit) {
if (nRead+=XkmGetCountedString(file,name,100)) {
xkb->names->vmods[i]= XkbInternAtom(name,False);
if (changes)
changes->names.changed_vmods|= bit;
}
}
}
return nRead;
}
static int
ReadXkmKeycodes(FILE *file,XkbDescPtr xkb,XkbChangesPtr changes)
{
register int i;
unsigned minKC,maxKC,nAl;
int nRead=0;
char name[100];
XkbKeyNamePtr pN;
name[0]= '\0';
nRead+= XkmGetCountedString(file,name,100);
minKC= XkmGetCARD8(file,&nRead);
maxKC= XkmGetCARD8(file,&nRead);
if (xkb->min_key_code==0) {
xkb->min_key_code= minKC;
xkb->max_key_code= maxKC;
}
else {
if (minKC<xkb->min_key_code)
xkb->min_key_code= minKC;
if (maxKC>xkb->max_key_code) {
_XkbLibError(_XkbErrBadValue,"ReadXkmKeycodes",maxKC);
return -1;
}
}
nAl= XkmGetCARD8(file,&nRead);
nRead+= XkmSkipPadding(file,1);
#define WANTED (XkbKeycodesNameMask|XkbKeyNamesMask|XkbKeyAliasesMask)
if (XkbAllocNames(xkb,WANTED,0,nAl)!=Success) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmKeycodes",0);
return -1;
}
if (name[0]!='\0') {
xkb->names->keycodes= XkbInternAtom(name,False);
}
for (pN=&xkb->names->keys[minKC],i=minKC;i<=(int)maxKC;i++,pN++) {
if (fread(pN,1,XkbKeyNameLength,file)!=XkbKeyNameLength) {
_XkbLibError(_XkbErrBadLength,"ReadXkmKeycodes",0);
return -1;
}
nRead+= XkbKeyNameLength;
}
if (nAl>0) {
XkbKeyAliasPtr pAl;
for (pAl= xkb->names->key_aliases,i=0;i<nAl;i++,pAl++) {
int tmp;
tmp= fread(pAl,1,2*XkbKeyNameLength,file);
if (tmp!=2*XkbKeyNameLength) {
_XkbLibError(_XkbErrBadLength,"ReadXkmKeycodes",0);
return -1;
}
nRead+= 2*XkbKeyNameLength;
}
if (changes)
changes->names.changed|= XkbKeyAliasesMask;
}
if (changes)
changes->names.changed|= XkbKeyNamesMask;
return nRead;
}
static int
ReadXkmKeyTypes(FILE *file,XkbDescPtr xkb,XkbChangesPtr changes)
{
register unsigned i,n;
unsigned num_types;
int nRead=0;
int tmp;
XkbKeyTypePtr type;
xkmKeyTypeDesc wire;
XkbKTMapEntryPtr entry;
xkmKTMapEntryDesc wire_entry;
char buf[100];
if ((tmp= XkmGetCountedString(file,buf,100))<1) {
_XkbLibError(_XkbErrBadLength,"ReadXkmKeyTypes",0);
return -1;
}
nRead+= tmp;
if (buf[0]!='\0') {
if (XkbAllocNames(xkb,XkbTypesNameMask,0,0)!=Success) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmKeyTypes",0);
return -1;
}
xkb->names->types= XkbInternAtom(buf,False);
}
num_types= XkmGetCARD16(file,&nRead);
nRead+= XkmSkipPadding(file,2);
if (num_types<1)
return nRead;
if (XkbAllocClientMap(xkb,XkbKeyTypesMask,num_types)!=Success) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmKeyTypes",0);
return nRead;
}
xkb->map->num_types= num_types;
if (num_types<XkbNumRequiredTypes) {
_XkbLibError(_XkbErrMissingReqTypes,"ReadXkmKeyTypes",0);
return -1;
}
type= xkb->map->types;
for (i=0;i<num_types;i++,type++) {
if ((int)fread(&wire,SIZEOF(xkmKeyTypeDesc),1,file)<1) {
_XkbLibError(_XkbErrBadLength,"ReadXkmKeyTypes",0);
return -1;
}
nRead+= SIZEOF(xkmKeyTypeDesc);
if (((i==XkbOneLevelIndex)&&(wire.numLevels!=1))||
(((i==XkbTwoLevelIndex)||(i==XkbAlphabeticIndex)||
((i)==XkbKeypadIndex))&&(wire.numLevels!=2))) {
_XkbLibError(_XkbErrBadTypeWidth,"ReadXkmKeyTypes",i);
return -1;
}
tmp= wire.nMapEntries;
XkmInsureTypedSize(type->map,type->map_count,&tmp,XkbKTMapEntryRec);
if ((wire.nMapEntries>0)&&(type->map==NULL)) {
_XkbLibError(_XkbErrBadValue,"ReadXkmKeyTypes",wire.nMapEntries);
return -1;
}
for (n=0,entry= type->map;n<wire.nMapEntries;n++,entry++) {
if (fread(&wire_entry,SIZEOF(xkmKTMapEntryDesc),1,file)<(int)1) {
_XkbLibError(_XkbErrBadLength,"ReadXkmKeyTypes",0);
return -1;
}
nRead+= SIZEOF(xkmKTMapEntryDesc);
entry->active= (wire_entry.virtualMods==0);
entry->level= wire_entry.level;
entry->mods.mask= wire_entry.realMods;
entry->mods.real_mods= wire_entry.realMods;
entry->mods.vmods= wire_entry.virtualMods;
}
nRead+= XkmGetCountedString(file,buf,100);
if (((i==XkbOneLevelIndex)&&(strcmp(buf,"ONE_LEVEL")!=0))||
((i==XkbTwoLevelIndex)&&(strcmp(buf,"TWO_LEVEL")!=0))||
((i==XkbAlphabeticIndex)&&(strcmp(buf,"ALPHABETIC")!=0))||
((i==XkbKeypadIndex)&&(strcmp(buf,"KEYPAD")!=0))) {
_XkbLibError(_XkbErrBadTypeName,"ReadXkmKeyTypes",0);
return -1;
}
if (buf[0]!='\0') {
type->name= XkbInternAtom(buf,False);
}
else type->name= None;
if (wire.preserve) {
xkmModsDesc p_entry;
XkbModsPtr pre;
XkmInsureTypedSize(type->preserve,type->map_count,&tmp,
XkbModsRec);
if (type->preserve==NULL) {
_XkbLibError(_XkbErrBadMatch,"ReadXkmKeycodes",0);
return -1;
}
for (n=0,pre=type->preserve;n<wire.nMapEntries;n++,pre++) {
if (fread(&p_entry,SIZEOF(xkmModsDesc),1,file)<1) {
_XkbLibError(_XkbErrBadLength,"ReadXkmKeycodes",0);
return -1;
}
nRead+= SIZEOF(xkmModsDesc);
pre->mask= p_entry.realMods;
pre->real_mods= p_entry.realMods;
pre->vmods= p_entry.virtualMods;
}
}
if (wire.nLevelNames>0) {
int width= wire.numLevels;
if (wire.nLevelNames>(unsigned)width) {
_XkbLibError(_XkbErrBadMatch,"ReadXkmKeycodes",0);
return -1;
}
XkmInsureTypedSize(type->level_names,type->num_levels,&width,Atom);
if (type->level_names!=NULL) {
for (n=0;n<wire.nLevelNames;n++) {
if ((tmp=XkmGetCountedString(file,buf,100))<1)
return -1;
nRead+= tmp;
if (strlen(buf)==0)
type->level_names[n]= None;
else type->level_names[n]= XkbInternAtom(buf,0);
}
}
}
type->mods.mask= wire.realMods;
type->mods.real_mods= wire.realMods;
type->mods.vmods= wire.virtualMods;
type->num_levels= wire.numLevels;
type->map_count= wire.nMapEntries;
}
if (changes) {
changes->map.changed|= XkbKeyTypesMask;
changes->map.first_type= 0;
changes->map.num_types= xkb->map->num_types;
}
return nRead;
}
static int
ReadXkmCompatMap(FILE *file,XkbDescPtr xkb,XkbChangesPtr changes)
{
register int i;
unsigned num_si,groups;
char name[100];
XkbSymInterpretPtr interp;
xkmSymInterpretDesc wire;
unsigned tmp;
int nRead=0;
XkbCompatMapPtr compat;
if ((tmp= XkmGetCountedString(file,name,100))<1) {
_XkbLibError(_XkbErrBadLength,"ReadXkmCompatMap",0);
return -1;
}
nRead+= tmp;
if (name[0]!='\0') {
if (XkbAllocNames(xkb,XkbCompatNameMask,0,0)!=Success) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmCompatMap",0);
return -1;
}
xkb->names->compat= XkbInternAtom(name,False);
}
num_si= XkmGetCARD16(file,&nRead);
groups= XkmGetCARD8(file,&nRead);
nRead+= XkmSkipPadding(file,1);
if (XkbAllocCompatMap(xkb,XkbAllCompatMask,num_si)!=Success)
return -1;
compat= xkb->compat;
compat->num_si= num_si;
interp= compat->sym_interpret;
for (i=0;i<num_si;i++,interp++) {
tmp= fread(&wire,SIZEOF(xkmSymInterpretDesc),1,file);
nRead+= tmp*SIZEOF(xkmSymInterpretDesc);
interp->sym= wire.sym;
interp->mods= wire.mods;
interp->match= wire.match;
interp->virtual_mod= wire.virtualMod;
interp->flags= wire.flags;
interp->act.type= wire.actionType;
interp->act.data[0]= wire.actionData[0];
interp->act.data[1]= wire.actionData[1];
interp->act.data[2]= wire.actionData[2];
interp->act.data[3]= wire.actionData[3];
interp->act.data[4]= wire.actionData[4];
interp->act.data[5]= wire.actionData[5];
interp->act.data[6]= wire.actionData[6];
}
if ((num_si>0)&&(changes)) {
changes->compat.first_si= 0;
changes->compat.num_si= num_si;
}
if (groups) {
register unsigned bit;
for (i=0,bit=1;i<XkbNumKbdGroups;i++,bit<<=1) {
xkmModsDesc md;
if (groups&bit) {
tmp= fread(&md,SIZEOF(xkmModsDesc),1,file);
nRead+= tmp*SIZEOF(xkmModsDesc);
xkb->compat->groups[i].real_mods= md.realMods;
xkb->compat->groups[i].vmods= md.virtualMods;
if (md.virtualMods != 0) {
unsigned mask;
if (XkbVirtualModsToReal(xkb,md.virtualMods,&mask))
xkb->compat->groups[i].mask= md.realMods|mask;
}
else xkb->compat->groups[i].mask= md.realMods;
}
}
if (changes)
changes->compat.changed_groups|= groups;
}
return nRead;
}
static int
ReadXkmIndicators(FILE *file,XkbDescPtr xkb,XkbChangesPtr changes)
{
register unsigned nLEDs;
xkmIndicatorMapDesc wire;
char buf[100];
unsigned tmp;
int nRead=0;
if ((xkb->indicators==NULL)&&(XkbAllocIndicatorMaps(xkb)!=Success)) {
_XkbLibError(_XkbErrBadAlloc,"indicator rec",0);
return -1;
}
if (XkbAllocNames(xkb,XkbIndicatorNamesMask,0,0)!=Success) {
_XkbLibError(_XkbErrBadAlloc,"indicator names",0);
return -1;
}
nLEDs= XkmGetCARD8(file,&nRead);
nRead+= XkmSkipPadding(file,3);
xkb->indicators->phys_indicators= XkmGetCARD32(file,&nRead);
while (nLEDs-->0) {
Atom name;
XkbIndicatorMapPtr map;
if ((tmp=XkmGetCountedString(file,buf,100))<1) {
_XkbLibError(_XkbErrBadLength,"ReadXkmIndicators",0);
return -1;
}
nRead+= tmp;
if (buf[0]!='\0')
name= XkbInternAtom(buf,False);
else name= None;
if ((tmp=fread(&wire,SIZEOF(xkmIndicatorMapDesc),1,file))<1) {
_XkbLibError(_XkbErrBadLength,"ReadXkmIndicators",0);
return -1;
}
nRead+= tmp*SIZEOF(xkmIndicatorMapDesc);
if (xkb->names) {
xkb->names->indicators[wire.indicator-1]= name;
if (changes)
changes->names.changed_indicators|= (1<<(wire.indicator-1));
}
map= &xkb->indicators->maps[wire.indicator-1];
map->flags= wire.flags;
map->which_groups= wire.which_groups;
map->groups= wire.groups;
map->which_mods= wire.which_mods;
map->mods.mask= wire.real_mods;
map->mods.real_mods= wire.real_mods;
map->mods.vmods= wire.vmods;
map->ctrls= wire.ctrls;
}
return nRead;
}
static XkbKeyTypePtr
FindTypeForKey(XkbDescPtr xkb,Atom name,unsigned width,KeySym *syms)
{
if ((!xkb)||(!xkb->map))
return NULL;
if (name!=None) {
register unsigned i;
for (i=0;i<xkb->map->num_types;i++) {
if (xkb->map->types[i].name==name) {
if (xkb->map->types[i].num_levels!=width)
DebugF("Group width mismatch between key and type\n");
return &xkb->map->types[i];
}
}
}
if ((width<2)||((syms!=NULL)&&(syms[1]==NoSymbol)))
return &xkb->map->types[XkbOneLevelIndex];
if (syms!=NULL) {
if (XkbKSIsLower(syms[0])&&XkbKSIsUpper(syms[1]))
return &xkb->map->types[XkbAlphabeticIndex];
else if (XkbKSIsKeypad(syms[0])||XkbKSIsKeypad(syms[1]))
return &xkb->map->types[XkbKeypadIndex];
}
return &xkb->map->types[XkbTwoLevelIndex];
}
static int
ReadXkmSymbols(FILE *file,XkbDescPtr xkb)
{
register int i,g,s,totalVModMaps;
xkmKeySymMapDesc wireMap;
char buf[100];
unsigned minKC,maxKC,groupNames,tmp;
int nRead=0;
if ((tmp=XkmGetCountedString(file,buf,100))<1)
return -1;
nRead+= tmp;
minKC= XkmGetCARD8(file,&nRead);
maxKC= XkmGetCARD8(file,&nRead);
groupNames= XkmGetCARD8(file,&nRead);
totalVModMaps= XkmGetCARD8(file,&nRead);
if (XkbAllocNames(xkb,
XkbSymbolsNameMask|XkbPhysSymbolsNameMask|XkbGroupNamesMask,
0,0)!=Success) {
_XkbLibError(_XkbErrBadAlloc,"physical names",0);
return -1;
}
if ((buf[0]!='\0')&&(xkb->names)) {
Atom name;
name= XkbInternAtom(buf,0);
xkb->names->symbols= name;
xkb->names->phys_symbols= name;
}
for (i=0,g=1;i<XkbNumKbdGroups;i++,g<<=1) {
if (groupNames&g) {
if ((tmp=XkmGetCountedString(file,buf,100))<1)
return -1;
nRead+= tmp;
if ((buf[0]!='\0')&&(xkb->names)) {
Atom name;
name= XkbInternAtom(buf,0);
xkb->names->groups[i]= name;
}
else xkb->names->groups[i]= None;
}
}
if (XkbAllocServerMap(xkb,XkbAllServerInfoMask,0)!=Success) {
_XkbLibError(_XkbErrBadAlloc,"server map",0);
return -1;
}
if (XkbAllocClientMap(xkb,XkbAllClientInfoMask,0)!=Success) {
_XkbLibError(_XkbErrBadAlloc,"client map",0);
return -1;
}
if (XkbAllocControls(xkb,XkbAllControlsMask)!=Success) {
_XkbLibError(_XkbErrBadAlloc,"controls",0);
return -1;
}
if ((xkb->map==NULL)||(xkb->server==NULL))
return -1;
if (xkb->min_key_code<8) xkb->min_key_code= minKC;
if (xkb->max_key_code<8) xkb->max_key_code= maxKC;
if ((minKC>=8)&&(minKC<xkb->min_key_code))
xkb->min_key_code= minKC;
if ((maxKC>=8)&&(maxKC>xkb->max_key_code)) {
_XkbLibError(_XkbErrBadValue,"keys in symbol map",maxKC);
return -1;
}
for (i=minKC;i<=(int)maxKC;i++) {
Atom typeName[XkbNumKbdGroups];
XkbKeyTypePtr type[XkbNumKbdGroups];
if ((tmp=fread(&wireMap,SIZEOF(xkmKeySymMapDesc),1,file))<1) {
_XkbLibError(_XkbErrBadLength,"ReadXkmSymbols",0);
return -1;
}
nRead+= tmp*SIZEOF(xkmKeySymMapDesc);
bzero((char *)typeName,XkbNumKbdGroups*sizeof(Atom));
bzero((char *)type,XkbNumKbdGroups*sizeof(XkbKeyTypePtr));
if (wireMap.flags&XkmKeyHasTypes) {
register int g;
for (g=0;g<XkbNumKbdGroups;g++) {
if ((wireMap.flags&(1<<g))&&
((tmp=XkmGetCountedString(file,buf,100))>0)) {
typeName[g]= XkbInternAtom(buf,1);
nRead+= tmp;
}
type[g]=FindTypeForKey(xkb,typeName[g],wireMap.width,NULL);
if (type[g]==NULL) {
_XkbLibError(_XkbErrMissingTypes,"ReadXkmSymbols",0);
return -1;
}
if (typeName[g]==type[g]->name)
xkb->server->explicit[i]|= (1<<g);
}
}
if (wireMap.flags&XkmRepeatingKey) {
xkb->ctrls->per_key_repeat[i/8]|= (1<<(i%8));
xkb->server->explicit[i]|= XkbExplicitAutoRepeatMask;
}
else if (wireMap.flags&XkmNonRepeatingKey) {
xkb->ctrls->per_key_repeat[i/8]&= ~(1<<(i%8));
xkb->server->explicit[i]|= XkbExplicitAutoRepeatMask;
}
xkb->map->modmap[i]= wireMap.modifier_map;
if (XkbNumGroups(wireMap.num_groups)>0) {
KeySym *sym;
int nSyms;
if (XkbNumGroups(wireMap.num_groups)>xkb->ctrls->num_groups)
xkb->ctrls->num_groups= wireMap.num_groups;
nSyms= XkbNumGroups(wireMap.num_groups)*wireMap.width;
sym= XkbResizeKeySyms(xkb,i,nSyms);
if (!sym)
return -1;
for (s=0;s<nSyms;s++) {
*sym++= XkmGetCARD32(file,&nRead);
}
if (wireMap.flags&XkmKeyHasActions) {
XkbAction * act;
act= XkbResizeKeyActions(xkb,i,nSyms);
for (s=0;s<nSyms;s++,act++) {
tmp=fread(act,SIZEOF(xkmActionDesc),1,file);
nRead+= tmp*SIZEOF(xkmActionDesc);
}
xkb->server->explicit[i]|= XkbExplicitInterpretMask;
}
}
for (g=0;g<XkbNumGroups(wireMap.num_groups);g++) {
if (((xkb->server->explicit[i]&(1<<g))==0)||(type[g]==NULL)) {
KeySym *tmpSyms;
tmpSyms= XkbKeySymsPtr(xkb,i)+(wireMap.width*g);
type[g]= FindTypeForKey(xkb,None,wireMap.width,tmpSyms);
}
xkb->map->key_sym_map[i].kt_index[g]= type[g]-(&xkb->map->types[0]);
}
xkb->map->key_sym_map[i].group_info= wireMap.num_groups;
xkb->map->key_sym_map[i].width= wireMap.width;
if (wireMap.flags&XkmKeyHasBehavior) {
xkmBehaviorDesc b;
tmp= fread(&b,SIZEOF(xkmBehaviorDesc),1,file);
nRead+= tmp*SIZEOF(xkmBehaviorDesc);
xkb->server->behaviors[i].type= b.type;
xkb->server->behaviors[i].data= b.data;
xkb->server->explicit[i]|= XkbExplicitBehaviorMask;
}
}
if (totalVModMaps>0) {
xkmVModMapDesc v;
for (i=0;i<totalVModMaps;i++) {
tmp= fread(&v,SIZEOF(xkmVModMapDesc),1,file);
nRead+= tmp*SIZEOF(xkmVModMapDesc);
if (tmp>0)
xkb->server->vmodmap[v.key]= v.vmods;
}
}
return nRead;
}
static int
ReadXkmGeomDoodad(
FILE * file,
XkbGeometryPtr geom,
XkbSectionPtr section)
{
XkbDoodadPtr doodad;
xkmDoodadDesc doodadWire;
char buf[100];
unsigned tmp;
int nRead=0;
nRead+= XkmGetCountedString(file,buf,100);
tmp= fread(&doodadWire,SIZEOF(xkmDoodadDesc),1,file);
nRead+= SIZEOF(xkmDoodadDesc)*tmp;
doodad= XkbAddGeomDoodad(geom,section,XkbInternAtom(buf,False));
if (!doodad)
return nRead;
doodad->any.type= doodadWire.any.type;
doodad->any.priority= doodadWire.any.priority;
doodad->any.top= doodadWire.any.top;
doodad->any.left= doodadWire.any.left;
switch (doodadWire.any.type) {
case XkbOutlineDoodad:
case XkbSolidDoodad:
doodad->shape.angle= doodadWire.shape.angle;
doodad->shape.color_ndx= doodadWire.shape.color_ndx;
doodad->shape.shape_ndx= doodadWire.shape.shape_ndx;
break;
case XkbTextDoodad:
doodad->text.angle= doodadWire.text.angle;
doodad->text.width= doodadWire.text.width;
doodad->text.height= doodadWire.text.height;
doodad->text.color_ndx= doodadWire.text.color_ndx;
nRead+= XkmGetCountedString(file,buf,100);
doodad->text.text= _XkbDupString(buf);
nRead+= XkmGetCountedString(file,buf,100);
doodad->text.font= _XkbDupString(buf);
break;
case XkbIndicatorDoodad:
doodad->indicator.shape_ndx= doodadWire.indicator.shape_ndx;
doodad->indicator.on_color_ndx= doodadWire.indicator.on_color_ndx;
doodad->indicator.off_color_ndx= doodadWire.indicator.off_color_ndx;
break;
case XkbLogoDoodad:
doodad->logo.angle= doodadWire.logo.angle;
doodad->logo.color_ndx= doodadWire.logo.color_ndx;
doodad->logo.shape_ndx= doodadWire.logo.shape_ndx;
nRead+= XkmGetCountedString(file,buf,100);
doodad->logo.logo_name= _XkbDupString(buf);
break;
default:
return nRead;
}
return nRead;
}
static int
ReadXkmGeomOverlay( FILE * file,
XkbGeometryPtr geom,
XkbSectionPtr section)
{
char buf[100];
unsigned tmp;
int nRead=0;
XkbOverlayPtr ol;
XkbOverlayRowPtr row;
xkmOverlayDesc olWire;
xkmOverlayRowDesc rowWire;
register int r;
nRead+= XkmGetCountedString(file,buf,100);
tmp= fread(&olWire,SIZEOF(xkmOverlayDesc),1,file);
nRead+= tmp*SIZEOF(xkmOverlayDesc);
ol= XkbAddGeomOverlay(section,XkbInternAtom(buf,False),
olWire.num_rows);
if (!ol)
return nRead;
for (r=0;r<olWire.num_rows;r++) {
int k;
xkmOverlayKeyDesc keyWire;
tmp= fread(&rowWire,SIZEOF(xkmOverlayRowDesc),1,file);
nRead+= tmp*SIZEOF(xkmOverlayRowDesc);
row= XkbAddGeomOverlayRow(ol,rowWire.row_under,rowWire.num_keys);
if (!row) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmGeomOverlay",0);
return nRead;
}
for (k=0;k<rowWire.num_keys;k++) {
tmp= fread(&keyWire,SIZEOF(xkmOverlayKeyDesc),1,file);
nRead+= tmp*SIZEOF(xkmOverlayKeyDesc);
memcpy(row->keys[k].over.name,keyWire.over,XkbKeyNameLength);
memcpy(row->keys[k].under.name,keyWire.under,XkbKeyNameLength);
}
row->num_keys= rowWire.num_keys;
}
return nRead;
}
static int
ReadXkmGeomSection( FILE * file,
XkbGeometryPtr geom)
{
register int i;
XkbSectionPtr section;
xkmSectionDesc sectionWire;
unsigned tmp;
int nRead= 0;
char buf[100];
Atom nameAtom;
nRead+= XkmGetCountedString(file,buf,100);
nameAtom= XkbInternAtom(buf,False);
tmp= fread(§ionWire,SIZEOF(xkmSectionDesc),1,file);
nRead+= SIZEOF(xkmSectionDesc)*tmp;
section= XkbAddGeomSection(geom,nameAtom,sectionWire.num_rows,
sectionWire.num_doodads,
sectionWire.num_overlays);
if (!section) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmGeomSection",0);
return nRead;
}
section->top= sectionWire.top;
section->left= sectionWire.left;
section->width= sectionWire.width;
section->height= sectionWire.height;
section->angle= sectionWire.angle;
section->priority= sectionWire.priority;
if (sectionWire.num_rows>0) {
register int k;
XkbRowPtr row;
xkmRowDesc rowWire;
XkbKeyPtr key;
xkmKeyDesc keyWire;
for (i=0;i<sectionWire.num_rows;i++) {
tmp= fread(&rowWire,SIZEOF(xkmRowDesc),1,file);
nRead+= SIZEOF(xkmRowDesc)*tmp;
row= XkbAddGeomRow(section,rowWire.num_keys);
if (!row) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmKeycodes",0);
return nRead;
}
row->top= rowWire.top;
row->left= rowWire.left;
row->vertical= rowWire.vertical;
for (k=0;k<rowWire.num_keys;k++) {
tmp= fread(&keyWire,SIZEOF(xkmKeyDesc),1,file);
nRead+= SIZEOF(xkmKeyDesc)*tmp;
key= XkbAddGeomKey(row);
if (!key) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmGeomSection",0);
return nRead;
}
memcpy(key->name.name,keyWire.name,XkbKeyNameLength);
key->gap= keyWire.gap;
key->shape_ndx= keyWire.shape_ndx;
key->color_ndx= keyWire.color_ndx;
}
}
}
if (sectionWire.num_doodads>0) {
for (i=0;i<sectionWire.num_doodads;i++) {
tmp= ReadXkmGeomDoodad(file,geom,section);
nRead+= tmp;
if (tmp<1)
return nRead;
}
}
if (sectionWire.num_overlays>0) {
for (i=0;i<sectionWire.num_overlays;i++) {
tmp= ReadXkmGeomOverlay(file,geom,section);
nRead+= tmp;
if (tmp<1)
return nRead;
}
}
return nRead;
}
static int
ReadXkmGeometry(FILE *file,XkbDescPtr xkb)
{
register int i;
char buf[100];
unsigned tmp;
int nRead= 0;
xkmGeometryDesc wireGeom;
XkbGeometryPtr geom;
XkbGeometrySizesRec sizes;
nRead+= XkmGetCountedString(file,buf,100);
tmp= fread(&wireGeom,SIZEOF(xkmGeometryDesc),1,file);
nRead+= tmp*SIZEOF(xkmGeometryDesc);
sizes.which= XkbGeomAllMask;
sizes.num_properties= wireGeom.num_properties;
sizes.num_colors= wireGeom.num_colors;
sizes.num_shapes= wireGeom.num_shapes;
sizes.num_sections= wireGeom.num_sections;
sizes.num_doodads= wireGeom.num_doodads;
sizes.num_key_aliases= wireGeom.num_key_aliases;
if (XkbAllocGeometry(xkb,&sizes)!=Success) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmGeometry",0);
return nRead;
}
geom= xkb->geom;
geom->name= XkbInternAtom(buf,False);
geom->width_mm= wireGeom.width_mm;
geom->height_mm= wireGeom.height_mm;
nRead+= XkmGetCountedString(file,buf,100);
geom->label_font= _XkbDupString(buf);
if (wireGeom.num_properties>0) {
char val[1024];
for (i=0;i<wireGeom.num_properties;i++) {
nRead+= XkmGetCountedString(file,buf,100);
nRead+= XkmGetCountedString(file,val,1024);
if (XkbAddGeomProperty(geom,buf,val)==NULL) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmGeometry",0);
return nRead;
}
}
}
if (wireGeom.num_colors>0) {
for (i=0;i<wireGeom.num_colors;i++) {
nRead+= XkmGetCountedString(file,buf,100);
if (XkbAddGeomColor(geom,buf,i)==NULL) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmGeometry",0);
return nRead;
}
}
}
geom->base_color= &geom->colors[wireGeom.base_color_ndx];
geom->label_color= &geom->colors[wireGeom.label_color_ndx];
if (wireGeom.num_shapes>0) {
XkbShapePtr shape;
xkmShapeDesc shapeWire;
Atom nameAtom;
for (i=0;i<wireGeom.num_shapes;i++) {
register int n;
XkbOutlinePtr ol;
xkmOutlineDesc olWire;
nRead+= XkmGetCountedString(file,buf,100);
nameAtom= XkbInternAtom(buf,False);
tmp= fread(&shapeWire,SIZEOF(xkmShapeDesc),1,file);
nRead+= tmp*SIZEOF(xkmShapeDesc);
shape= XkbAddGeomShape(geom,nameAtom,shapeWire.num_outlines);
if (!shape) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmGeometry",0);
return nRead;
}
for (n=0;n<shapeWire.num_outlines;n++) {
register int p;
xkmPointDesc ptWire;
tmp= fread(&olWire,SIZEOF(xkmOutlineDesc),1,file);
nRead+= tmp*SIZEOF(xkmOutlineDesc);
ol= XkbAddGeomOutline(shape,olWire.num_points);
if (!ol) {
_XkbLibError(_XkbErrBadAlloc,"ReadXkmGeometry",0);
return nRead;
}
ol->num_points= olWire.num_points;
ol->corner_radius= olWire.corner_radius;
for (p=0;p<olWire.num_points;p++) {
tmp= fread(&ptWire,SIZEOF(xkmPointDesc),1,file);
nRead+= tmp*SIZEOF(xkmPointDesc);
ol->points[p].x= ptWire.x;
ol->points[p].y= ptWire.y;
if (ptWire.x<shape->bounds.x1) shape->bounds.x1= ptWire.x;
if (ptWire.x>shape->bounds.x2) shape->bounds.x2= ptWire.x;
if (ptWire.y<shape->bounds.y1) shape->bounds.y1= ptWire.y;
if (ptWire.y>shape->bounds.y2) shape->bounds.y2= ptWire.y;
}
}
if (shapeWire.primary_ndx!=XkbNoShape)
shape->primary= &shape->outlines[shapeWire.primary_ndx];
if (shapeWire.approx_ndx!=XkbNoShape)
shape->approx= &shape->outlines[shapeWire.approx_ndx];
}
}
if (wireGeom.num_sections>0) {
for (i=0;i<wireGeom.num_sections;i++) {
tmp= ReadXkmGeomSection(file,geom);
nRead+= tmp;
if (tmp==0)
return nRead;
}
}
if (wireGeom.num_doodads>0) {
for (i=0;i<wireGeom.num_doodads;i++) {
tmp= ReadXkmGeomDoodad(file,geom,NULL);
nRead+= tmp;
if (tmp==0)
return nRead;
}
}
if ((wireGeom.num_key_aliases>0)&&(geom->key_aliases)) {
int sz= XkbKeyNameLength*2;
int num= wireGeom.num_key_aliases;
if (fread(geom->key_aliases,sz,num,file)!=num) {
_XkbLibError(_XkbErrBadLength,"ReadXkmGeometry",0);
return -1;
}
nRead+= (num*sz);
geom->num_key_aliases= num;
}
return nRead;
}
Bool
XkmProbe(FILE *file)
{
unsigned hdr,tmp;
int nRead=0;
hdr= (('x'<<24)|('k'<<16)|('m'<<8)|XkmFileVersion);
tmp= XkmGetCARD32(file,&nRead);
if (tmp!=hdr) {
if ((tmp&(~0xff))==(hdr&(~0xff))) {
_XkbLibError(_XkbErrBadFileVersion,"XkmProbe",tmp&0xff);
}
return 0;
}
return 1;
}
static Bool
XkmReadTOC(FILE *file,xkmFileInfo* file_info,int max_toc,xkmSectionInfo *toc)
{
unsigned hdr,tmp;
int nRead=0;
unsigned i,size_toc;
hdr= (('x'<<24)|('k'<<16)|('m'<<8)|XkmFileVersion);
tmp= XkmGetCARD32(file,&nRead);
if (tmp!=hdr) {
if ((tmp&(~0xff))==(hdr&(~0xff))) {
_XkbLibError(_XkbErrBadFileVersion,"XkmReadTOC",tmp&0xff);
}
else {
_XkbLibError(_XkbErrBadFileType,"XkmReadTOC",tmp);
}
return 0;
}
fread(file_info,SIZEOF(xkmFileInfo),1,file);
size_toc= file_info->num_toc;
if (size_toc>max_toc) {
DebugF("Warning! Too many TOC entries; last %d ignored\n",
size_toc-max_toc);
size_toc= max_toc;
}
for (i=0;i<size_toc;i++) {
fread(&toc[i],SIZEOF(xkmSectionInfo),1,file);
}
return 1;
}
#define MAX_TOC 16
unsigned
XkmReadFile(FILE *file,unsigned need,unsigned want,XkbDescPtr *xkb)
{
register unsigned i;
xkmSectionInfo toc[MAX_TOC],tmpTOC;
xkmFileInfo fileInfo;
unsigned tmp,nRead=0;
unsigned which= need|want;
if (!XkmReadTOC(file,&fileInfo,MAX_TOC,toc))
return which;
if ((fileInfo.present&need)!=need) {
_XkbLibError(_XkbErrIllegalContents,"XkmReadFile",
need&(~fileInfo.present));
return which;
}
if (*xkb==NULL)
*xkb= XkbAllocKeyboard();
for (i=0;i<fileInfo.num_toc;i++) {
fseek(file,toc[i].offset,SEEK_SET);
tmp= fread(&tmpTOC,SIZEOF(xkmSectionInfo),1,file);
nRead= tmp*SIZEOF(xkmSectionInfo);
if ((tmpTOC.type!=toc[i].type)||(tmpTOC.format!=toc[i].format)||
(tmpTOC.size!=toc[i].size)||(tmpTOC.offset!=toc[i].offset)) {
return which;
}
if ((which&(1<<tmpTOC.type))==0) {
continue;
}
switch (tmpTOC.type) {
case XkmVirtualModsIndex:
tmp= ReadXkmVirtualMods(file,*xkb,NULL);
break;
case XkmTypesIndex:
tmp= ReadXkmKeyTypes(file,*xkb,NULL);
break;
case XkmCompatMapIndex:
tmp= ReadXkmCompatMap(file,*xkb,NULL);
break;
case XkmKeyNamesIndex:
tmp= ReadXkmKeycodes(file,*xkb,NULL);
break;
case XkmIndicatorsIndex:
tmp= ReadXkmIndicators(file,*xkb,NULL);
break;
case XkmSymbolsIndex:
tmp= ReadXkmSymbols(file,*xkb);
break;
case XkmGeometryIndex:
tmp= ReadXkmGeometry(file,*xkb);
break;
default:
_XkbLibError(_XkbErrBadImplementation,
XkbConfigText(tmpTOC.type,XkbMessage),0);
tmp= 0;
break;
}
if (tmp>0) {
nRead+= tmp;
which&= ~(1<<toc[i].type);
(*xkb)->defined|= (1<<toc[i].type);
}
if (nRead!=tmpTOC.size) {
_XkbLibError(_XkbErrBadLength,XkbConfigText(tmpTOC.type,XkbMessage),
nRead-tmpTOC.size);
}
}
return which;
}