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goma / wine / 01d6346a231fcc03f648bfa6ea6c997909ac88b6 / . / misc / ver.c
blob: 2779a006f3430189735cbbf18ad7565414704fcc [file] [log] [blame]
/*
* Implementation of VER.DLL
*
* Copyright 1996 Marcus Meissner
*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#include "windows.h"
#include "win.h"
#include "winerror.h"
#include "heap.h"
#include "ver.h"
#include "lzexpand.h"
#include "module.h"
#include "neexe.h"
#include "stddebug.h"
#include "debug.h"
#include "xmalloc.h"
#include "winreg.h"
#define LZREAD(what) \
if (sizeof(*what)!=LZRead32(lzfd,what,sizeof(*what))) return 0;
#define LZTELL(lzfd) LZSeek32(lzfd, 0, SEEK_CUR);
int
read_ne_header(HFILE32 lzfd,struct ne_header_s *nehd) {
struct mz_header_s mzh;
LZSeek32(lzfd,0,SEEK_SET);
if (sizeof(mzh)!=LZRead32(lzfd,&mzh,sizeof(mzh)))
return 0;
if (mzh.mz_magic!=MZ_SIGNATURE)
return 0;
LZSeek32(lzfd,mzh.ne_offset,SEEK_SET);
LZREAD(nehd);
if (nehd->ne_magic == NE_SIGNATURE) {
LZSeek32(lzfd,mzh.ne_offset,SEEK_SET);
return 1;
}
fprintf(stderr,"misc/ver.c:read_ne_header:can't handle PE files yet.\n");
/* must handle PE files too. Later. */
return 0;
}
int
find_ne_resource(
HFILE32 lzfd,struct ne_header_s *nehd,SEGPTR typeid,SEGPTR resid,
BYTE **resdata,int *reslen,DWORD *off
) {
NE_TYPEINFO ti;
NE_NAMEINFO ni;
int i;
WORD shiftcount;
DWORD nehdoffset;
nehdoffset = LZTELL(lzfd);
LZSeek32(lzfd,nehd->resource_tab_offset,SEEK_CUR);
LZREAD(&shiftcount);
dprintf_ver(stddeb,"shiftcount is %d\n",shiftcount);
dprintf_ver(stddeb,"reading resource typeinfo dir.\n");
if (!HIWORD(typeid)) typeid = (SEGPTR)(LOWORD(typeid) | 0x8000);
if (!HIWORD(resid)) resid = (SEGPTR)(LOWORD(resid) | 0x8000);
while (1) {
int skipflag;
LZREAD(&ti);
if (!ti.type_id)
return 0;
dprintf_ver(stddeb," ti.typeid =%04x,count=%d\n",ti.type_id,ti.count);
skipflag=0;
if (!HIWORD(typeid)) {
if ((ti.type_id&0x8000)&&(typeid!=ti.type_id))
skipflag=1;
} else {
if (ti.type_id & 0x8000) {
skipflag=1;
} else {
BYTE len;
char *str;
DWORD whereleft;
whereleft = LZTELL(lzfd);
LZSeek32(
lzfd,
nehdoffset+nehd->resource_tab_offset+ti.type_id,
SEEK_SET
);
LZREAD(&len);
str=xmalloc(len);
if (len!=LZRead32(lzfd,str,len))
return 0;
dprintf_ver(stddeb,"read %s to compare it with %s\n",
str,(char*)PTR_SEG_TO_LIN(typeid)
);
if (lstrcmpi32A(str,(char*)PTR_SEG_TO_LIN(typeid)))
skipflag=1;
free(str);
LZSeek32(lzfd,whereleft,SEEK_SET);
}
}
if (skipflag) {
LZSeek32(lzfd,ti.count*sizeof(ni),SEEK_CUR);
continue;
}
for (i=0;i<ti.count;i++) {
WORD *rdata;
int len;
LZREAD(&ni);
dprintf_ver(stddeb," ni.id=%4x,offset=%d,length=%d\n",
ni.id,ni.offset,ni.length
);
skipflag=1;
if (!HIWORD(resid)) {
if (ni.id == resid)
skipflag=0;
} else {
if (!(ni.id & 0x8000)) {
BYTE len;
char *str;
DWORD whereleft;
whereleft = LZTELL(lzfd);
LZSeek32(
lzfd,
nehdoffset+nehd->resource_tab_offset+ni.id,
SEEK_SET
);
LZREAD(&len);
str=xmalloc(len);
if (len!=LZRead32(lzfd,str,len))
return 0;
dprintf_ver(stddeb,"read %s to compare it with %s\n",
str,(char*)PTR_SEG_TO_LIN(typeid)
);
if (!lstrcmpi32A(str,(char*)PTR_SEG_TO_LIN(typeid)))
skipflag=0;
free(str);
LZSeek32(lzfd,whereleft,SEEK_SET);
}
}
if (skipflag)
continue;
LZSeek32(lzfd,((int)ni.offset<<shiftcount),SEEK_SET);
*off = (int)ni.offset<<shiftcount;
len = ni.length<<shiftcount;
rdata=(WORD*)xmalloc(len);
if (len!=LZRead32(lzfd,rdata,len)) {
free(rdata);
return 0;
}
dprintf_ver(stddeb,"resource found.\n");
*resdata= (BYTE*)rdata;
*reslen = len;
return 1;
}
}
}
/* GetFileResourceSize [VER.2] */
DWORD
GetFileResourceSize(LPCSTR filename,SEGPTR restype,SEGPTR resid,LPDWORD off) {
HFILE32 lzfd;
OFSTRUCT ofs;
BYTE *resdata;
int reslen;
struct ne_header_s nehd;
dprintf_ver(stddeb,"GetFileResourceSize(%s,%lx,%lx,%p)\n",
filename,(LONG)restype,(LONG)resid,off
);
lzfd=LZOpenFile32A(filename,&ofs,OF_READ);
if (lzfd==0)
return 0;
if (!read_ne_header(lzfd,&nehd)) {
LZClose32(lzfd);
return 0;
}
if (!find_ne_resource(lzfd,&nehd,restype,resid,&resdata,&reslen,off)) {
LZClose32(lzfd);
return 0;
}
free(resdata);
LZClose32(lzfd);
return reslen;
}
/* GetFileResource [VER.3] */
DWORD
GetFileResource(LPCSTR filename,SEGPTR restype,SEGPTR resid,
DWORD off,DWORD datalen,LPVOID data
) {
HFILE32 lzfd;
OFSTRUCT ofs;
BYTE *resdata;
int reslen=datalen;
struct ne_header_s nehd;
dprintf_ver(stddeb,"GetFileResource(%s,%lx,%lx,%ld,%ld,%p)\n",
filename,(LONG)restype,(LONG)resid,off,datalen,data
);
lzfd=LZOpenFile32A(filename,&ofs,OF_READ);
if (lzfd==0)
return 0;
if (!off) {
if (!read_ne_header(lzfd,&nehd)) {
LZClose32(lzfd);
return 0;
}
if (!find_ne_resource(lzfd,&nehd,restype,resid,&resdata,&reslen,&off)) {
LZClose32(lzfd);
return 0;
}
free(resdata);
}
LZSeek32(lzfd,off,SEEK_SET);
if (reslen>datalen)
reslen=datalen;
LZRead32(lzfd,data,reslen);
LZClose32(lzfd);
return reslen;
}
/* GetFileVersionInfoSize [VER.6] */
DWORD
GetFileVersionInfoSize16(LPCSTR filename,LPDWORD handle) {
DWORD len,ret;
BYTE buf[72];
VS_FIXEDFILEINFO *vffi;
dprintf_ver(stddeb,"GetFileVersionInfoSize16(%s,%p)\n",filename,handle);
len=GetFileResourceSize(filename,VS_FILE_INFO,VS_VERSION_INFO,handle);
if (!len)
return 0;
ret=GetFileResource(
filename,VS_FILE_INFO,VS_VERSION_INFO,*handle,sizeof(buf),buf
);
if (!ret)
return 0;
vffi=(VS_FIXEDFILEINFO*)(buf+0x14);
if (vffi->dwSignature != VS_FFI_SIGNATURE)
return 0;
if (*(WORD*)buf < len)
len = *(WORD*)buf;
dprintf_ver(stddeb,"->strucver=%ld.%ld,filever=%ld.%ld,productver=%ld.%ld,flagmask=%lx,flags=%lx,OS=",
(vffi->dwStrucVersion>>16),vffi->dwStrucVersion&0xFFFF,
vffi->dwFileVersionMS,vffi->dwFileVersionLS,
vffi->dwProductVersionMS,vffi->dwProductVersionLS,
vffi->dwFileFlagsMask,vffi->dwFileFlags
);
switch (vffi->dwFileOS&0xFFFF0000) {
case VOS_DOS:dprintf_ver(stddeb,"DOS,");break;
case VOS_OS216:dprintf_ver(stddeb,"OS/2-16,");break;
case VOS_OS232:dprintf_ver(stddeb,"OS/2-32,");break;
case VOS_NT:dprintf_ver(stddeb,"NT,");break;
case VOS_UNKNOWN:
default:
dprintf_ver(stddeb,"UNKNOWN(%ld),",vffi->dwFileOS&0xFFFF0000);break;
}
switch (vffi->dwFileOS & 0xFFFF) {
case VOS__BASE:dprintf_ver(stddeb,"BASE");break;
case VOS__WINDOWS16:dprintf_ver(stddeb,"WIN16");break;
case VOS__WINDOWS32:dprintf_ver(stddeb,"WIN32");break;
case VOS__PM16:dprintf_ver(stddeb,"PM16");break;
case VOS__PM32:dprintf_ver(stddeb,"PM32");break;
default:dprintf_ver(stddeb,"UNKNOWN(%ld)",vffi->dwFileOS&0xFFFF);break;
}
switch (vffi->dwFileType) {
default:
case VFT_UNKNOWN:
dprintf_ver(stddeb,"filetype=Unknown(%ld)",vffi->dwFileType);
break;
case VFT_APP:dprintf_ver(stddeb,"filetype=APP");break;
case VFT_DLL:dprintf_ver(stddeb,"filetype=DLL");break;
case VFT_DRV:
dprintf_ver(stddeb,"filetype=DRV,");
switch(vffi->dwFileSubtype) {
default:
case VFT2_UNKNOWN:
dprintf_ver(stddeb,"UNKNOWN(%ld)",vffi->dwFileSubtype);
break;
case VFT2_DRV_PRINTER:
dprintf_ver(stddeb,"PRINTER");
break;
case VFT2_DRV_KEYBOARD:
dprintf_ver(stddeb,"KEYBOARD");
break;
case VFT2_DRV_LANGUAGE:
dprintf_ver(stddeb,"LANGUAGE");
break;
case VFT2_DRV_DISPLAY:
dprintf_ver(stddeb,"DISPLAY");
break;
case VFT2_DRV_MOUSE:
dprintf_ver(stddeb,"MOUSE");
break;
case VFT2_DRV_NETWORK:
dprintf_ver(stddeb,"NETWORK");
break;
case VFT2_DRV_SYSTEM:
dprintf_ver(stddeb,"SYSTEM");
break;
case VFT2_DRV_INSTALLABLE:
dprintf_ver(stddeb,"INSTALLABLE");
break;
case VFT2_DRV_SOUND:
dprintf_ver(stddeb,"SOUND");
break;
case VFT2_DRV_COMM:
dprintf_ver(stddeb,"COMM");
break;
case VFT2_DRV_INPUTMETHOD:
dprintf_ver(stddeb,"INPUTMETHOD");
break;
}
break;
case VFT_FONT:
dprintf_ver(stddeb,"filetype=FONT.");
switch (vffi->dwFileSubtype) {
default:
dprintf_ver(stddeb,"UNKNOWN(%ld)",vffi->dwFileSubtype);
break;
case VFT2_FONT_RASTER:dprintf_ver(stddeb,"RASTER");break;
case VFT2_FONT_VECTOR:dprintf_ver(stddeb,"VECTOR");break;
case VFT2_FONT_TRUETYPE:dprintf_ver(stddeb,"TRUETYPE");break;
}
break;
case VFT_VXD:dprintf_ver(stddeb,"filetype=VXD");break;
case VFT_STATIC_LIB:dprintf_ver(stddeb,"filetype=STATIC_LIB");break;
}
dprintf_ver(stddeb,"filedata=%lx.%lx\n",vffi->dwFileDateMS,vffi->dwFileDateLS);
return len;
}
/* GetFileVersionInfoSize32A [VERSION.1] */
DWORD
GetFileVersionInfoSize32A(LPCSTR filename,LPDWORD handle) {
dprintf_ver(stddeb,"GetFileVersionInfoSize32A(%s,%p)\n",filename,handle);
return GetFileVersionInfoSize16(filename,handle);
}
/* GetFileVersionInfoSize32W [VERSION.2] */
DWORD GetFileVersionInfoSize32W( LPCWSTR filename, LPDWORD handle )
{
LPSTR xfn = HEAP_strdupWtoA( GetProcessHeap(), 0, filename );
DWORD ret = GetFileVersionInfoSize16( xfn, handle );
HeapFree( GetProcessHeap(), 0, xfn );
return ret;
}
/* GetFileVersionInfo [VER.7] */
DWORD
GetFileVersionInfo16(LPCSTR filename,DWORD handle,DWORD datasize,LPVOID data) {
dprintf_ver(stddeb,"GetFileVersionInfo16(%s,%ld,%ld,%p)\n->",
filename,handle,datasize,data
);
return GetFileResource(
filename,VS_FILE_INFO,VS_VERSION_INFO,handle,datasize,data
);
}
/* GetFileVersionInfoA [VERSION.0] */
DWORD
GetFileVersionInfo32A(LPCSTR filename,DWORD handle,DWORD datasize,LPVOID data) {
return GetFileVersionInfo16(filename,handle,datasize,data);
}
/* GetFileVersionInfoW [VERSION.3] */
DWORD GetFileVersionInfo32W( LPCWSTR filename, DWORD handle, DWORD datasize,
LPVOID data)
{
LPSTR fn = HEAP_strdupWtoA( GetProcessHeap(), 0, filename );
DWORD ret = GetFileVersionInfo16( fn, handle, datasize, data );
HeapFree( GetProcessHeap(), 0, fn );
return ret;
}
/* VerFindFile [VER.8] */
DWORD
VerFindFile16(
UINT16 flags,LPCSTR filename,LPCSTR windir,LPCSTR appdir,
LPSTR curdir,UINT16 *curdirlen,LPSTR destdir,UINT16 *destdirlen
) {
dprintf_ver(stddeb,"VerFindFile(%x,%s,%s,%s,%p,%d,%p,%d)\n",
flags,filename,windir,appdir,curdir,*curdirlen,destdir,*destdirlen
);
strcpy(curdir,"Z:\\ROOT\\.WINE\\");/*FIXME*/
*curdirlen=strlen(curdir);
strcpy(destdir,"Z:\\ROOT\\.WINE\\");/*FIXME*/
*destdirlen=strlen(destdir);
return 0;
}
/* VerFindFileA [VERSION.5] */
DWORD
VerFindFile32A(
UINT32 flags,LPCSTR filename,LPCSTR windir,LPCSTR appdir,
LPSTR curdir,UINT32 *pcurdirlen,LPSTR destdir,UINT32 *pdestdirlen )
{
UINT16 curdirlen, destdirlen;
DWORD ret = VerFindFile16(flags,filename,windir,appdir,
curdir,&curdirlen,destdir,&destdirlen);
*pcurdirlen = curdirlen;
*pdestdirlen = destdirlen;
return ret;
}
/* VerFindFileW [VERSION.6] */
DWORD
VerFindFile32W(
UINT32 flags,LPCWSTR filename,LPCWSTR windir,LPCWSTR appdir,
LPWSTR curdir,UINT32 *pcurdirlen,LPWSTR destdir,UINT32 *pdestdirlen )
{
UINT16 curdirlen, destdirlen;
LPSTR wfn,wwd,wad,wdd,wcd;
DWORD ret;
wfn = HEAP_strdupWtoA( GetProcessHeap(), 0, filename );
wwd = HEAP_strdupWtoA( GetProcessHeap(), 0, windir );
wad = HEAP_strdupWtoA( GetProcessHeap(), 0, appdir );
wcd = HeapAlloc( GetProcessHeap(), 0, *pcurdirlen );
wdd = HeapAlloc( GetProcessHeap(), 0, *pdestdirlen );
ret = VerFindFile16(flags,wfn,wwd,wad,wcd,&curdirlen,wdd,&destdirlen);
lstrcpynAtoW(curdir,wcd,*pcurdirlen);
lstrcpynAtoW(destdir,wdd,*pdestdirlen);
*pcurdirlen = strlen(wcd);
*pdestdirlen = strlen(wdd);
HeapFree( GetProcessHeap(), 0, wfn );
HeapFree( GetProcessHeap(), 0, wwd );
HeapFree( GetProcessHeap(), 0, wad );
HeapFree( GetProcessHeap(), 0, wcd );
HeapFree( GetProcessHeap(), 0, wdd );
return ret;
}
/* VerInstallFile [VER.9] */
DWORD
VerInstallFile16(
UINT16 flags,LPCSTR srcfilename,LPCSTR destfilename,LPCSTR srcdir,
LPCSTR destdir,LPCSTR curdir,LPSTR tmpfile,UINT16 *tmpfilelen )
{
UINT32 filelen;
DWORD ret= VerInstallFile32A(flags,srcfilename,destfilename,srcdir,
destdir,curdir,tmpfile,&filelen);
*tmpfilelen = filelen;
return ret;
}
/* VerInstallFileA [VERSION.7] */
static LPBYTE
_fetch_versioninfo(LPSTR fn) {
DWORD alloclen;
LPBYTE buf;
DWORD ret;
alloclen = 1000;
buf= xmalloc(alloclen);
while (1) {
ret = GetFileVersionInfo32A(fn,0,alloclen,buf);
if (!ret) {
free(buf);
return 0;
}
if (alloclen<*(WORD*)buf) {
free(buf);
alloclen = *(WORD*)buf;
buf = xmalloc(alloclen);
} else
return buf;
}
}
static DWORD
_error2vif(DWORD error) {
switch (error) {
case ERROR_ACCESS_DENIED:
return VIF_ACCESSVIOLATION;
case ERROR_SHARING_VIOLATION:
return VIF_SHARINGVIOLATION;
default:
return 0;
}
}
DWORD
VerInstallFile32A(
UINT32 flags,LPCSTR srcfilename,LPCSTR destfilename,LPCSTR srcdir,
LPCSTR destdir,LPCSTR curdir,LPSTR tmpfile,UINT32 *tmpfilelen )
{
char destfn[260],tmpfn[260],srcfn[260];
HFILE32 hfsrc,hfdst;
DWORD attr,ret,xret,tmplast;
LPBYTE buf1,buf2;
OFSTRUCT ofs;
fprintf(stddeb,"VerInstallFile(%x,%s,%s,%s,%s,%s,%p,%d)\n",
flags,srcfilename,destfilename,srcdir,destdir,curdir,tmpfile,*tmpfilelen
);
xret = 0;
sprintf(srcfn,"%s\\%s",srcdir,srcfilename);
sprintf(destfn,"%s\\%s",destdir,destfilename);
hfsrc=LZOpenFile32A(srcfn,&ofs,OF_READ);
if (hfsrc==HFILE_ERROR32)
return VIF_CANNOTREADSRC;
sprintf(tmpfn,"%s\\%s",destdir,destfilename);
tmplast=strlen(destdir)+1;
attr = GetFileAttributes32A(tmpfn);
if (attr!=-1) {
if (attr & FILE_ATTRIBUTE_READONLY) {
LZClose32(hfsrc);
return VIF_WRITEPROT;
}
/* FIXME: check if file currently in use and return VIF_FILEINUSE */
}
attr = -1;
if (flags & VIFF_FORCEINSTALL) {
if (tmpfile[0]) {
sprintf(tmpfn,"%s\\%s",destdir,tmpfile);
tmplast = strlen(destdir)+1;
attr = GetFileAttributes32A(tmpfn);
/* if it exists, it has been copied by the call before.
* we jump over the copy part...
*/
}
}
if (attr == -1) {
char *s;
GetTempFileName32A(destdir,"ver",0,tmpfn); /* should not fail ... */
s=strrchr(tmpfn,'\\');
if (s)
tmplast = s-tmpfn;
else
tmplast = 0;
hfdst = OpenFile32(tmpfn,&ofs,OF_CREATE);
if (hfdst == HFILE_ERROR32) {
LZClose32(hfsrc);
return VIF_CANNOTCREATE; /* | translated dos error */
}
ret = LZCopy32(hfsrc,hfdst);
_lclose32(hfdst);
if (ret<0) {
/* translate LZ errors into VIF_xxx */
switch (ret) {
case LZERROR_BADINHANDLE:
case LZERROR_READ:
case LZERROR_BADVALUE:
case LZERROR_UNKNOWNALG:
ret = VIF_CANNOTREADSRC;
break;
case LZERROR_BADOUTHANDLE:
case LZERROR_WRITE:
ret = VIF_OUTOFMEMORY; /* FIXME: correct? */
break;
case LZERROR_GLOBALLOC:
case LZERROR_GLOBLOCK:
ret = VIF_OUTOFSPACE;
break;
default: /* unknown error, should not happen */
ret = 0;
break;
}
if (ret) {
LZClose32(hfsrc);
return ret;
}
}
}
xret = 0;
if (!(flags & VIFF_FORCEINSTALL)) {
buf1 = _fetch_versioninfo(destfn);
if (buf1) {
buf2 = _fetch_versioninfo(tmpfn);
if (!buf2) {
char *tbuf1,*tbuf2;
VS_FIXEDFILEINFO *destvffi,*tmpvffi;
UINT32 len1,len2;
destvffi= (VS_FIXEDFILEINFO*)(buf1+0x14);
tmpvffi = (VS_FIXEDFILEINFO*)(buf2+0x14);
len1=len2=40;
/* compare file versions */
if ((destvffi->dwFileVersionMS > tmpvffi->dwFileVersionMS)||
((destvffi->dwFileVersionMS==tmpvffi->dwFileVersionMS)&&
(destvffi->dwFileVersionLS > tmpvffi->dwFileVersionLS)
)
)
xret |= VIF_MISMATCH|VIF_SRCOLD;
/* compare filetypes and filesubtypes */
if ((destvffi->dwFileType!=tmpvffi->dwFileType) ||
(destvffi->dwFileSubtype!=tmpvffi->dwFileSubtype)
)
xret |= VIF_MISMATCH|VIF_DIFFTYPE;
if (VerQueryValue32A(buf1,"\\VarFileInfo\\Translation",(LPVOID*)&tbuf1,&len1) &&
VerQueryValue32A(buf2,"\\VarFileInfo\\Translation",(LPVOID*)&tbuf2,&len2)
) {
/* irgendwas mit tbuf1 und tbuf2 machen
* generiert DIFFLANG|MISMATCH
*/
}
free(buf2);
} else
xret=VIF_MISMATCH|VIF_SRCOLD;
free(buf1);
}
}
if (xret) {
if (*tmpfilelen<strlen(tmpfn+tmplast)) {
xret|=VIF_BUFTOSMALL;
DeleteFile32A(tmpfn);
} else {
strcpy(tmpfile,tmpfn+tmplast);
*tmpfilelen = strlen(tmpfn+tmplast)+1;
xret|=VIF_TEMPFILE;
}
} else {
if (-1!=GetFileAttributes32A(destfn))
if (!DeleteFile32A(destfn)) {
xret|=_error2vif(GetLastError())|VIF_CANNOTDELETE;
DeleteFile32A(tmpfn);
LZClose32(hfsrc);
return xret;
}
if ((!(flags & VIFF_DONTDELETEOLD)) &&
curdir &&
*curdir &&
lstrcmpi32A(curdir,destdir)
) {
char curfn[260];
sprintf(curfn,"%s\\%s",curdir,destfilename);
if (-1!=GetFileAttributes32A(curfn)) {
/* FIXME: check if in use ... if it is, VIF_CANNOTDELETECUR */
if (!DeleteFile32A(curfn))
xret|=_error2vif(GetLastError())|VIF_CANNOTDELETECUR;
}
}
if (!MoveFile32A(tmpfn,destfn)) {
xret|=_error2vif(GetLastError())|VIF_CANNOTRENAME;
DeleteFile32A(tmpfn);
}
}
LZClose32(hfsrc);
return xret;
}
/* VerInstallFileW [VERSION.8] */
DWORD
VerInstallFile32W(
UINT32 flags,LPCWSTR srcfilename,LPCWSTR destfilename,LPCWSTR srcdir,
LPCWSTR destdir,LPCWSTR curdir,LPWSTR tmpfile,UINT32 *tmpfilelen )
{
LPSTR wsrcf,wsrcd,wdestf,wdestd,wtmpf,wcurd;
DWORD ret;
wsrcf = HEAP_strdupWtoA( GetProcessHeap(), 0, srcfilename );
wsrcd = HEAP_strdupWtoA( GetProcessHeap(), 0, srcdir );
wdestf = HEAP_strdupWtoA( GetProcessHeap(), 0, destfilename );
wdestd = HEAP_strdupWtoA( GetProcessHeap(), 0, destdir );
wtmpf = HEAP_strdupWtoA( GetProcessHeap(), 0, tmpfile );
wcurd = HEAP_strdupWtoA( GetProcessHeap(), 0, curdir );
ret = VerInstallFile32A(flags,wsrcf,wdestf,wsrcd,wdestd,wcurd,wtmpf,tmpfilelen);
if (!ret)
lstrcpynAtoW(tmpfile,wtmpf,*tmpfilelen);
HeapFree( GetProcessHeap(), 0, wsrcf );
HeapFree( GetProcessHeap(), 0, wsrcd );
HeapFree( GetProcessHeap(), 0, wdestf );
HeapFree( GetProcessHeap(), 0, wdestd );
HeapFree( GetProcessHeap(), 0, wtmpf );
if (wcurd)
HeapFree( GetProcessHeap(), 0, wcurd );
return ret;
}
/* FIXME: This table should, of course, be language dependend */
static const struct map_id2str {
UINT16 langid;
const char *langname;
} languages[]={
{0x0401,"Arabisch"},
{0x0402,"Bulgarisch"},
{0x0403,"Katalanisch"},
{0x0404,"Traditionales Chinesisch"},
{0x0405,"Tschecisch"},
{0x0406,"Dänisch"},
{0x0407,"Deutsch"},
{0x0408,"Griechisch"},
{0x0409,"Amerikanisches Englisch"},
{0x040A,"Kastilisches Spanisch"},
{0x040B,"Finnisch"},
{0x040C,"Französisch"},
{0x040D,"Hebräisch"},
{0x040E,"Ungarisch"},
{0x040F,"Isländisch"},
{0x0410,"Italienisch"},
{0x0411,"Japanisch"},
{0x0412,"Koreanisch"},
{0x0413,"Niederländisch"},
{0x0414,"Norwegisch-Bokmal"},
{0x0415,"Polnisch"},
{0x0416,"Brasilianisches Portugiesisch"},
{0x0417,"Rätoromanisch"},
{0x0418,"Rumänisch"},
{0x0419,"Russisch"},
{0x041A,"Kroatoserbisch (lateinisch)"},
{0x041B,"Slowenisch"},
{0x041C,"Albanisch"},
{0x041D,"Schwedisch"},
{0x041E,"Thai"},
{0x041F,"Türkisch"},
{0x0420,"Urdu"},
{0x0421,"Bahasa"},
{0x0804,"Vereinfachtes Chinesisch"},
{0x0807,"Schweizerdeutsch"},
{0x0809,"Britisches Englisch"},
{0x080A,"Mexikanisches Spanisch"},
{0x080C,"Belgisches Französisch"},
{0x0810,"Schweizerisches Italienisch"},
{0x0813,"Belgisches Niederländisch"},
{0x0814,"Norgwegisch-Nynorsk"},
{0x0816,"Portugiesisch"},
{0x081A,"Serbokratisch (kyrillisch)"},
{0x0C1C,"Kanadisches Französisch"},
{0x100C,"Schweizerisches Französisch"},
{0x0000,"Unbekannt"},
};
/* VerLanguageName [VER.10] */
DWORD
VerLanguageName16(UINT16 langid,LPSTR langname,UINT16 langnamelen) {
int i;
char *buf;
dprintf_ver(stddeb,"VerLanguageName(%d,%p,%d)\n",langid,langname,langnamelen);
/* First, check \System\CurrentControlSet\control\Nls\Locale\<langid>
* from the registry.
*/
buf=(char*)malloc(strlen("\\System\\CurrentControlSet\\control\\Nls\\Locale\\")+9);
sprintf(buf,"\\System\\CurrentControlSet\\control\\Nls\\Locale\\%08x",langid);
if (ERROR_SUCCESS==RegQueryValue16(HKEY_LOCAL_MACHINE,buf,langname,(LPDWORD)&langnamelen)) {
langname[langnamelen-1]='\0';
return langnamelen;
}
/* if that fails, use the interal table */
for (i=0;languages[i].langid!=0;i++)
if (langid==languages[i].langid)
break;
strncpy(langname,languages[i].langname,langnamelen);
langname[langnamelen-1]='\0';
return strlen(languages[i].langname);
}
/* VerLanguageNameA [VERSION.9] */
DWORD
VerLanguageName32A(UINT32 langid,LPSTR langname,UINT32 langnamelen) {
return VerLanguageName16(langid,langname,langnamelen);
}
/* VerLanguageNameW [VERSION.10] */
DWORD
VerLanguageName32W(UINT32 langid,LPWSTR langname,UINT32 langnamelen) {
int i;
char buffer[80];
LPWSTR keyname;
/* First, check \System\CurrentControlSet\control\Nls\Locale\<langid>
* from the registry.
*/
sprintf(buffer,"\\System\\CurrentControlSet\\control\\Nls\\Locale\\%08x",langid);
keyname = HEAP_strdupAtoW( GetProcessHeap(), 0, buffer );
if (ERROR_SUCCESS==RegQueryValue32W(HKEY_LOCAL_MACHINE,keyname,langname,(LPDWORD)&langnamelen)) {
HeapFree( GetProcessHeap(), 0, keyname );
return langnamelen;
}
HeapFree( GetProcessHeap(), 0, keyname );
/* if that fails, use the interal table */
for (i=0;languages[i].langid!=0;i++)
if (langid==languages[i].langid)
break;
lstrcpyAtoW( langname, languages[i].langname );
return strlen(languages[i].langname); /* same as strlenW(langname); */
}
/* FIXME: UNICODE? */
struct db {
WORD nextoff;
WORD datalen;
/* in memory structure... */
char name[1]; /* padded to dword alignment */
/* ....
char data[datalen]; padded to dword alignemnt
BYTE subdirdata[]; until nextoff
*/
};
static BYTE*
_find_data(BYTE *block,LPCSTR str) {
char *nextslash;
int substrlen;
struct db *db;
while (*str && *str=='\\')
str++;
if (NULL!=(nextslash=strchr(str,'\\')))
substrlen=nextslash-str;
else
substrlen=strlen(str);
if (nextslash!=NULL) {
while (*nextslash && *nextslash=='\\')
nextslash++;
if (!*nextslash)
nextslash=NULL;
}
while (1) {
db=(struct db*)block;
dprintf_ver(stddeb,"db=%p,db->nextoff=%d,db->datalen=%d,db->name=%s,db->data=%s\n",
db,db->nextoff,db->datalen,db->name,(char*)((char*)db+4+((strlen(db->name)+4)&~3))
);
if (!db->nextoff)
return NULL;
dprintf_ver(stddeb,"comparing with %s\n",db->name);
if (!strncmp(db->name,str,substrlen)) {
if (nextslash)
return _find_data(
block+4+((strlen(db->name)+4)&~3)+((db->datalen+3)&~3)
,nextslash
);
else
return block;
}
block=block+((db->nextoff+3)&~3);
}
}
/* VerQueryValue [VER.11] */
/* take care, 'buffer' is NOT a SEGPTR, it just points to one */
DWORD
VerQueryValue16(SEGPTR segblock,LPCSTR subblock,SEGPTR *buffer,UINT16 *buflen)
{
BYTE *block=PTR_SEG_TO_LIN(segblock),*b;
struct db *db;
char *s;
dprintf_ver(stddeb,"VerQueryValue16(%p,%s,%p,%d)\n",
block,subblock,buffer,*buflen
);
s=(char*)xmalloc(strlen("VS_VERSION_INFO\\")+strlen(subblock)+1);
strcpy(s,"VS_VERSION_INFO\\");strcat(s,subblock);
b=_find_data(block,s);
if (b==NULL) {
*buflen=0;
return 0;
}
db=(struct db*)b;
*buflen = db->datalen;
/* let b point to data area */
b = b+4+((strlen(db->name)+4)&~3);
/* now look up what the resp. SEGPTR would be ... */
*buffer = (b-block)+segblock;
dprintf_ver(stddeb," -> %s=%s\n",subblock,b);
return 1;
}
DWORD
VerQueryValue32A(LPVOID vblock,LPCSTR subblock,LPVOID *vbuffer,UINT32 *buflen)
{
BYTE *b,*block=(LPBYTE)vblock,**buffer=(LPBYTE*)vbuffer;
struct db *db;
char *s;
dprintf_ver(stddeb,"VerQueryValue32A(%p,%s,%p,%d)\n",
block,subblock,buffer,*buflen
);
s=(char*)xmalloc(strlen("VS_VERSION_INFO\\")+strlen(subblock)+1);
strcpy(s,"VS_VERSION_INFO\\");strcat(s,subblock);
b=_find_data(block,s);
if (b==NULL) {
*buflen=0;
return 0;
}
db=(struct db*)b;
*buflen = db->datalen;
/* let b point to data area */
b = b+4+((strlen(db->name)+4)&~3);
*buffer = b;
dprintf_ver(stddeb," -> %s=%s\n",subblock,b);
return 1;
}
DWORD
VerQueryValue32W(LPVOID vblock,LPCWSTR subblock,LPVOID *vbuffer,UINT32 *buflen)
{
/* FIXME: hmm, we not only need to convert subblock, but also
* the content...or?
* And what about UNICODE version info?
* And the NAMES of the values?
*/
BYTE *b,**buffer=(LPBYTE*)vbuffer,*block=(LPBYTE)vblock;
struct db *db;
char *s,*sb;
sb = HEAP_strdupWtoA( GetProcessHeap(), 0, subblock );
s=(char*)xmalloc(strlen("VS_VERSION_INFO\\")+strlen(sb)+1);
strcpy(s,"VS_VERSION_INFO\\");strcat(s,sb);
b=_find_data(block,s);
if (b==NULL) {
*buflen=0;
HeapFree( GetProcessHeap(), 0, sb );
return 0;
}
db=(struct db*)b;
*buflen = db->datalen;
/* let b point to data area */
b = b+4+((strlen(db->name)+4)&~3);
*buffer = b;
dprintf_ver(stddeb," -> %s=%s\n",sb,b);
HeapFree( GetProcessHeap(), 0, sb );
return 1;
}
/* 20 GETFILEVERSIONINFORAW */