windows-nt/Source/XPSP1/NT/sdktools/rcdll/rcx.c

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2020-09-26 03:20:57 -05:00
/****************************************************************************/
/* */
/* rcx.C - AFX symbol info writer */
/* */
/* Windows 3.5 Resource Compiler */
/* */
/****************************************************************************/
#include "rc.h"
/////////////////////////////////////////////////////////////////////////////
// Symbol information
static PFILE fhFileMap;
static LONG lFileMap;
static PFILE fhResMap;
static LONG lResMap;
static PFILE fhRefMap;
static LONG lRefMap;
static PFILE fhSymList;
static LONG lSymList;
static LONG HdrOffset;
static CHAR szEndOfResource[2] = {'$', '\000'};
static CHAR szSymList[_MAX_PATH];
static CHAR szFileMap[_MAX_PATH];
static CHAR szRefMap[_MAX_PATH];
static CHAR szResMap[_MAX_PATH];
static WCHAR szName[] = L"HWB";
#define OPEN_FLAGS (_O_TRUNC | _O_BINARY | _O_CREAT | _O_RDWR)
#define PROT_FLAGS (S_IWRITE | S_IWRITE)
void
wtoa(
WORD value,
char* string,
int radix
)
{
if (value == (WORD)-1)
_itoa(-1, string, radix);
else
_itoa(value, string, radix);
}
int
ConvertAndWrite(
PFILE fp,
PWCHAR pwch
)
{
int n;
char szMultiByte[_MAX_PATH]; // assumes _MAX_PATH >= MAX_SYMBOL
n = wcslen(pwch) + 1;
n = WideCharToMultiByte(uiCodePage, 0,
pwch, n,
szMultiByte, MAX_PATH,
NULL, NULL);
return MyWrite(fp, (PVOID)szMultiByte, n);
}
VOID
WriteResHdr (
FILE *fh,
LONG size,
WORD id
)
{
LONG val;
/* add data size and header size */
MyWrite(fh, (PVOID)&size, sizeof(ULONG)); // will backpatch
MyWrite(fh, (PVOID)&HdrOffset, sizeof(ULONG));
/* add type and name */
MyWrite(fh, (PVOID)szName, sizeof(szName));
val = 0xFFFF;
MyWrite(fh, (PVOID)&val, sizeof(WORD));
MyWrite(fh, (PVOID)&id, sizeof(WORD));
MyAlign(fh);
/* add data struct version, flags, language, resource data version
/* and characteristics */
val = 0;
MyWrite(fh, (PVOID)&val, sizeof(ULONG));
val = 0x0030;
MyWrite(fh, (PVOID)&val, sizeof(WORD));
MyWrite(fh, (PVOID)&language, sizeof(WORD));
val = 2;
MyWrite(fh, (PVOID)&val, sizeof(ULONG));
MyWrite(fh, (PVOID)&characteristics, sizeof(ULONG));
}
BOOL
InitSymbolInfo(
void
)
{
PCHAR szTmp;
if (!fAFXSymbols)
return(TRUE);
if ((szTmp = _tempnam(NULL, "RCX1")) != NULL) {
strcpy(szSymList, szTmp);
free(szTmp);
} else {
strcpy(szSymList, tmpnam(NULL));
}
if ((szTmp = _tempnam(NULL, "RCX2")) != NULL) {
strcpy(szFileMap, szTmp);
free(szTmp);
} else {
strcpy(szFileMap, tmpnam(NULL));
}
if ((szTmp = _tempnam(NULL, "RCX3")) != NULL) {
strcpy(szRefMap, szTmp);
free(szTmp);
} else {
strcpy(szRefMap, tmpnam(NULL));
}
if ((szTmp = _tempnam(NULL, "RCX4")) != NULL) {
strcpy(szResMap, szTmp);
free(szTmp);
} else {
strcpy(szResMap, tmpnam(NULL));
}
if (!(fhFileMap = fopen(szFileMap, "w+b")) ||
!(fhSymList = fopen(szSymList, "w+b")) ||
!(fhRefMap = fopen(szRefMap, "w+b")) ||
!(fhResMap = fopen(szResMap, "w+b")))
return FALSE;
/* calculate header size */
HdrOffset = sizeof(szName);
HdrOffset += 2 * sizeof(WORD);
if (HdrOffset % 4)
HdrOffset += sizeof(WORD); // could only be off by 2
HdrOffset += sizeof(RESADDITIONAL);
WriteResHdr(fhSymList, lSymList, 200);
WriteResHdr(fhFileMap, lFileMap, 201);
WriteResHdr(fhRefMap, lRefMap, 202);
WriteResHdr(fhResMap, lResMap, 2);
return TRUE;
}
BOOL
TermSymbolInfo(
PFILE fhResFile
)
{
long lStart;
PTYPEINFO pType;
RESINFO r;
if (!fAFXSymbols)
return(TRUE);
if (fhResFile == NULL_FILE)
goto termCloseOnly;
WriteSymbolDef(L"", L"", L"", 0, (char)0);
MySeek(fhSymList, 0L, SEEK_SET);
MyWrite(fhSymList, (PVOID)&lSymList, sizeof(lSymList));
MySeek(fhFileMap, 0L, SEEK_SET);
MyWrite(fhFileMap, (PVOID)&lFileMap, sizeof(lFileMap));
WriteResInfo(NULL, NULL, FALSE);
MySeek(fhRefMap, 0L, SEEK_SET);
MyWrite(fhRefMap, (PVOID)&lRefMap, sizeof(lRefMap));
// now append these to .res
pType = AddResType(L"HWB", 0);
r.flags = 0x0030;
r.name = NULL;
r.next = NULL;
r.language = language;
r.version = version;
r.characteristics = characteristics;
MySeek(fhSymList, 0L, SEEK_SET);
MyAlign(fhResFile);
r.BinOffset = MySeek(fhResFile, 0L, SEEK_END) + HdrOffset;
r.size = lSymList;
r.nameord = 200;
WriteResInfo(&r, pType, TRUE);
MyCopyAll(fhSymList, fhResFile);
MySeek(fhFileMap, 0L, SEEK_SET);
MyAlign(fhResFile);
r.BinOffset = MySeek(fhResFile, 0L, SEEK_END) + HdrOffset;
r.size = lFileMap;
r.nameord = 201;
WriteResInfo(&r, pType, TRUE);
MyCopyAll(fhFileMap, fhResFile);
MySeek(fhRefMap, 0L, SEEK_SET);
MyAlign(fhResFile);
r.BinOffset = MySeek(fhResFile, 0L, SEEK_END) + HdrOffset;
r.size = lRefMap;
r.nameord = 202;
WriteResInfo(&r, pType, TRUE);
MyCopyAll(fhRefMap, fhResFile);
MyAlign(fhResFile);
lStart = MySeek(fhResFile, 0L, SEEK_CUR);
MySeek(fhResMap, 0L, SEEK_SET);
MyWrite(fhResMap, (PVOID)&lResMap, sizeof(lResMap));
MySeek(fhResMap, 0L, SEEK_SET);
MyCopyAll(fhResMap, fhResFile);
// patch the HWB:1 resource with HWB:2's starting point
MySeek(fhResFile, lOffIndex, SEEK_SET);
MyWrite(fhResFile, (PVOID)&lStart, sizeof(lStart));
MySeek(fhResFile, 0L, SEEK_END);
termCloseOnly:;
if (fhFileMap) {
fclose(fhFileMap);
remove(szFileMap);
}
if (fhRefMap) {
fclose(fhRefMap);
remove(szRefMap);
}
if (fhSymList) {
fclose(fhSymList);
remove(szSymList);
}
if (fhResMap) {
fclose(fhResMap);
remove(szResMap);
}
return TRUE;
}
void
WriteSymbolUse(
PSYMINFO pSym
)
{
if (!fAFXSymbols)
return;
if (pSym == NULL) {
WORD nID = (WORD)-1;
lRefMap += MyWrite(fhRefMap, (PVOID)&szEndOfResource, sizeof(szEndOfResource));
lRefMap += MyWrite(fhRefMap, (PVOID)&nID, sizeof(nID));
} else {
lRefMap += ConvertAndWrite(fhRefMap, pSym->name);
lRefMap += MyWrite(fhRefMap, (PVOID)&pSym->nID, sizeof(pSym->nID));
}
}
void
WriteSymbolDef(
PWCHAR name,
PWCHAR value,
PWCHAR file,
WORD line,
char flags
)
{
if (!fAFXSymbols)
return;
if (name[0] == L'$' && value[0] != L'\0') {
RESINFO res;
TYPEINFO typ;
res.nameord = (USHORT) -1;
res.language = language;
typ.typeord = (USHORT) -1;
WriteFileInfo(&res, &typ, value);
return;
}
lSymList += ConvertAndWrite(fhSymList, name);
lSymList += ConvertAndWrite(fhSymList, value);
lSymList += MyWrite(fhSymList, (PVOID)&line, sizeof(line));
lSymList += MyWrite(fhSymList, (PVOID)&flags, sizeof(flags));
}
void
WriteFileInfo(
PRESINFO pRes,
PTYPEINFO pType,
PWCHAR szFileName
)
{
WORD n1 = 0xFFFF;
if (!fAFXSymbols)
return;
if (pType->typeord == 0) {
lFileMap += MyWrite(fhFileMap, (PVOID)pType->type,
(wcslen(pType->type) + 1) * sizeof(WCHAR));
} else {
WORD n2 = pType->typeord;
if (n2 == (WORD)RT_MENUEX)
n2 = (WORD)RT_MENU;
else if (n2 == (WORD)RT_DIALOGEX)
n2 = (WORD)RT_DIALOG;
lFileMap += MyWrite(fhFileMap, (PVOID)&n1, sizeof(WORD));
lFileMap += MyWrite(fhFileMap, (PVOID)&n2, sizeof(WORD));
}
if (pRes->nameord == 0) {
lFileMap += MyWrite(fhFileMap, (PVOID)pRes->name,
(wcslen(pRes->name) + 1) * sizeof(WCHAR));
} else {
lFileMap += MyWrite(fhFileMap, (PVOID)&n1, sizeof(WORD));
lFileMap += MyWrite(fhFileMap, (PVOID)&pRes->nameord, sizeof(WORD));
}
lFileMap += MyWrite(fhFileMap, (PVOID)&pRes->language, sizeof(WORD));
lFileMap += MyWrite(fhFileMap, (PVOID)szFileName,
(wcslen(szFileName) + 1) * sizeof(WCHAR));
}
void
WriteResInfo(
PRESINFO pRes,
PTYPEINFO pType,
BOOL bWriteMapEntry
)
{
if (!fAFXSymbols)
return;
if (pRes == NULL) {
WORD nID = (WORD)-1;
//assert(bWriteMapEntry == FALSE);
lRefMap += MyWrite(fhRefMap, (PVOID)&szEndOfResource, sizeof(szEndOfResource));
lRefMap += MyWrite(fhRefMap, (PVOID)&nID, sizeof(nID));
return;
}
if (bWriteMapEntry) {
WORD n1 = 0xFFFF;
ULONG t0 = 0;
/* add data size and data offset */
lResMap += MyWrite(fhResMap, (PVOID)&pRes->size, sizeof(ULONG));
lResMap += MyWrite(fhResMap, (PVOID)&pRes->BinOffset, sizeof(ULONG));
/* Is this an ordinal type? */
if (pType->typeord) {
WORD n2 = pType->typeord;
if (n2 == (WORD)RT_MENUEX)
n2 = (WORD)RT_MENU;
else if (n2 == (WORD)RT_DIALOGEX)
n2 = (WORD)RT_DIALOG;
lResMap += MyWrite(fhResMap, (PVOID)&n1, sizeof(WORD));
lResMap += MyWrite(fhResMap, (PVOID)&n2, sizeof(WORD));
} else {
lResMap += MyWrite(fhResMap, (PVOID)pType->type,
(wcslen(pType->type) + 1) * sizeof(WCHAR));
}
if (pRes->nameord) {
lResMap += MyWrite(fhResMap, (PVOID)&n1, sizeof(WORD));
lResMap += MyWrite(fhResMap, (PVOID)&pRes->nameord, sizeof(WORD));
} else {
lResMap += MyWrite(fhResMap, (PVOID)pRes->name,
(wcslen(pRes->name) + 1) * sizeof(WCHAR));
}
lResMap += MyAlign(fhResMap);
/* add data struct version, flags, language, resource data version
/* and characteristics */
lResMap += MyWrite(fhResMap, (PVOID)&t0, sizeof(ULONG));
lResMap += MyWrite(fhResMap, (PVOID)&pRes->flags, sizeof(WORD));
lResMap += MyWrite(fhResMap, (PVOID)&pRes->language, sizeof(WORD));
lResMap += MyWrite(fhResMap, (PVOID)&pRes->version, sizeof(ULONG));
lResMap += MyWrite(fhResMap, (PVOID)&pRes->characteristics, sizeof(ULONG));
return;
}
if (pType->typeord == 0) {
lRefMap += ConvertAndWrite(fhRefMap, pType->type);
} else {
char szID[33];
WORD n2 = pType->typeord;
if (n2 == (WORD)RT_MENUEX)
n2 = (WORD)RT_MENU;
else if (n2 == (WORD)RT_DIALOGEX)
n2 = (WORD)RT_DIALOG;
wtoa(n2, szID, 10);
lRefMap += MyWrite(fhRefMap, (PVOID)szID, strlen(szID)+1);
}
if (pRes->nameord == 0) {
lRefMap += ConvertAndWrite(fhRefMap, pRes->name);
} else {
char szID[33];
wtoa(pRes->nameord, szID, 10);
lRefMap += MyWrite(fhRefMap, (PVOID)szID, strlen(szID)+1);
}
lRefMap += ConvertAndWrite(fhRefMap, pRes->sym.name);
lRefMap += ConvertAndWrite(fhRefMap, pRes->sym.file);
lRefMap += MyWrite(fhRefMap,(PVOID)&pRes->sym.line,sizeof(pRes->sym.line));
}
/*---------------------------------------------------------------------------*/
/* */
/* GetSymbolDef() - get a symbol def record and write out info */
/* */
/*---------------------------------------------------------------------------*/
void
GetSymbolDef(
int fReportError,
WCHAR curChar
)
{
SYMINFO sym;
WCHAR szDefn[_MAX_PATH];
WCHAR szLine[16];
PWCHAR p;
CHAR flags = 0;
WCHAR currentChar = curChar;
if (!fAFXSymbols)
return;
currentChar = LitChar(); // get past SYMDEFSTART
/* read the symbol name */
p = sym.name;
while ((*p++ = currentChar) != SYMDELIMIT)
currentChar = LitChar();
*--p = L'\0';
if (p - sym.name > MAX_SYMBOL) {
ParseError1(2247);
return;
}
currentChar = LitChar(); /* read past the delimiter */
p = szDefn;
while ((*p++ = currentChar) != SYMDELIMIT)
currentChar = LitChar();
*--p = L'\0';
currentChar = LitChar(); /* read past the delimiter */
sym.file[0] = L'\0';
p = szLine;
while ((*p++ = currentChar) != SYMDELIMIT)
currentChar = LitChar();
*--p = L'\0';
sym.line = (WORD)wcsatoi(szLine);
currentChar = LitChar(); /* read past the delimiter */
flags = (CHAR)currentChar;
flags &= 0x7f; // clear the hi bit
currentChar = LitChar(); /* read past the delimiter */
/* leave positioned at last character (LitChar will bump) */
if (currentChar != SYMDELIMIT) {
ParseError1(2248);
}
WriteSymbolDef(sym.name, szDefn, sym.file, sym.line, flags);
}
/*---------------------------------------------------------------------------*/
/* */
/* GetSymbol() - read a symbol and put id in the token if there */
/* */
/*---------------------------------------------------------------------------*/
void
GetSymbol(
int fReportError,
WCHAR curChar
)
{
WCHAR currentChar = curChar;
token.sym.name[0] = L'\0';
token.sym.file[0] = L'\0';
token.sym.line = 0;
if (!fAFXSymbols)
return;
/* skip whitespace */
while (iswhite(currentChar))
currentChar = LitChar();
if (currentChar == SYMUSESTART) {
WCHAR * p;
int i = 0;
WCHAR szLine[16];
currentChar = LitChar(); // get past SYMUSESTART
if (currentChar != L'\"') {
ParseError1(2249);
return;
}
currentChar = LitChar(); // get past the first \"
/* read the symbol name */
p = token.sym.name;
while ((*p++ = currentChar) != SYMDELIMIT)
currentChar = LitChar();
*--p = L'\0';
if (p - token.sym.name > MAX_SYMBOL) {
ParseError1(2247);
return;
}
currentChar = LitChar(); /* read past the delimiter */
p = token.sym.file;
while ((*p++ = currentChar) != SYMDELIMIT)
currentChar = LitChar();
*--p = L'\0';
currentChar = LitChar(); /* read past the delimiter */
p = szLine;
while ((*p++ = currentChar) != L'\"')
currentChar = LitChar();
*--p = L'\0';
token.sym.line = (WORD)wcsatoi(szLine);
if (currentChar != L'\"') {
ParseError1(2249);
return;
}
currentChar = LitChar(); // get past SYMDELIMIT
/* skip whitespace */
while (iswhite(currentChar))
currentChar = LitChar();
}
}