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windows-server-2003/sdktools/build/buildutl.c

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//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1989 - 1994
//
// File: buildutl.c
//
// Contents: Utility functions for Build.exe
//
// History: 16-May-89 SteveWo Created
// ... See SLM log
// 26-Jul-94 LyleC Cleanup/Add pass0 support
// 05-Dec-00 sbonev See SD changelist 2317
//
//----------------------------------------------------------------------------
#include "build.h"
#if DBG
//+---------------------------------------------------------------------------
//
// Memory Allocation/Deallocation functions
//
// These functions provide leak tracking on a debug build.
//
//----------------------------------------------------------------------------
typedef struct _MEMHEADER {
MemType mt;
ULONG cbRequest;
struct _MEMHEADER *pmhPrev;
struct _MEMHEADER *pmhNext;
} MEMHEADER;
#define CBHEADER sizeof(MEMHEADER)
#define CBTAIL sizeof(ULONG)
char patternFree[CBTAIL] = { 'M', 'E', 'M', 'D'};
char patternBusy[CBTAIL] = { 'm', 'e', 'm', 'd'};
__inline MEMHEADER *
GetHeader(VOID *pvblock)
{
return ((MEMHEADER *) (pvblock) - 1);
}
__inline VOID *
GetBlock(MEMHEADER *pmh)
{
return ((VOID *) (pmh + 1));
}
__inline VOID
FillTailBusy(LPSTR p)
{
memcpy(p, patternBusy, sizeof(patternBusy));
}
__inline VOID
FillTailFree(LPSTR p)
{
memcpy(p, patternFree, sizeof(patternFree));
}
__inline BOOL
CheckTail(LPSTR p)
{
return (memcmp(p, patternBusy, sizeof(patternBusy)) == 0);
}
typedef struct _MEMTAB {
LPSTR pszType;
ULONG cbAlloc;
ULONG cAlloc;
ULONG cbAllocTotal;
ULONG cAllocTotal;
MEMHEADER mh;
} MEMTAB;
ULONG cbAllocMax;
ULONG cAllocMax;
MEMTAB MemTab[] = {
{ "Totals",}, // MT_TOTALS
{ "Unknown",}, // MT_UNKNOWN
{ "ChildData",}, // MT_CHILDDATA
{ "CmdString",}, // MT_CMDSTRING
{ "DirDB",}, // MT_DIRDB
{ "DirSup",}, // MT_DIRSUP
{ "DirPath",}, // MT_DIRPATH
{ "DirString",}, // MT_DIRSTRING
{ "EventHandles",}, // MT_EVENTHANDLES
{ "FileDB",}, // MT_FILEDB
{ "FileReadBuf",}, // MT_FILEREADBUF
{ "FrbString",}, // MT_FRBSTRING
{ "IncludeDB",}, // MT_INCLUDEDB
{ "IoBuffer",}, // MT_IOBUFFER
{ "Macro",}, // MT_MACRO
{ "SourceDB",}, // MT_SOURCEDB
{ "Target",}, // MT_TARGET
{ "ThreadFilter",}, // MT_THREADFILTER
{ "ThreadHandles",}, // MT_THREADHANDLES
{ "ThreadState",}, // MT_THREADSTATE
{ "Dependency",}, // MT_DEPENDENCY
{ "DependencyWait",}, // MT_DEPENDENCY_WAIT
{ "XMLThreadState",}, // MT_XMLTHREADSTATE
{ "PXMLThreadState",}, // MT_PXMLTHREADSTATE
};
#define MT_MAX (sizeof(MemTab)/sizeof(MemTab[0]))
VOID
InitMem(VOID)
{
MEMTAB *pmt;
for (pmt = MemTab; pmt < &MemTab[MT_MAX]; pmt++) {
assert(pmt->cAllocTotal == 0);
pmt->mh.mt = MT_INVALID;
pmt->mh.pmhNext = &pmt->mh;
pmt->mh.pmhPrev = &pmt->mh;
}
}
#else
#define CBHEADER 0
#define CBTAIL 0
#endif
//+---------------------------------------------------------------------------
//
// Function: AllocMem
//
// Synopsis: Allocate memory
//
// Arguments: [cb] -- Requested Size
// [ppv] -- [out] allocated memory
// [mt] -- Type of memory being allocated (MT_XXX)
//
//----------------------------------------------------------------------------
VOID
AllocMem(size_t cb, VOID **ppv, MemType mt)
{
*ppv = malloc(cb + CBHEADER + CBTAIL);
if (*ppv == NULL) {
BuildError("(Fatal Error) malloc(%u) failed\r\n", cb);
exit(16);
}
#if DBG
{
MEMTAB *pmt;
MEMHEADER *pmh;
pmh = *ppv;
*ppv = GetBlock(pmh);
if (mt >= MT_MAX) {
mt = MT_UNKNOWN;
}
pmt = &MemTab[MT_TOTALS];
if (pmt->cAllocTotal == 0) {
InitMem();
}
pmt->cAlloc++;
pmt->cAllocTotal++;
pmt->cbAlloc += cb;
pmt->cbAllocTotal += cb;
if (cbAllocMax < pmt->cbAlloc) {
cbAllocMax = pmt->cbAlloc;
}
if (cAllocMax < pmt->cAlloc) {
cAllocMax = pmt->cAlloc;
}
pmt = &MemTab[mt];
pmt->cAlloc++;
pmt->cAllocTotal++;
pmt->cbAlloc += cb;
pmt->cbAllocTotal += cb;
pmh->mt = mt;
pmh->cbRequest = cb;
pmh->pmhNext = pmt->mh.pmhNext;
pmt->mh.pmhNext = pmh;
pmh->pmhPrev = pmh->pmhNext->pmhPrev;
pmh->pmhNext->pmhPrev = pmh;
FillTailBusy((char *) *ppv + cb);
if (DEBUG_4 && DEBUG_1) {
BuildError("AllocMem(%d, mt=%s) -> %lx\r\n", cb, pmt->pszType, *ppv);
}
}
#endif
}
//+---------------------------------------------------------------------------
//
// Function: FreeMem
//
// Synopsis: Free memory allocated by AllocMem
//
// Arguments: [ppv] -- Memory pointer
// [mt] -- Type of memory (MT_XXX)
//
// Notes: Sets the memory pointer to null after freeing it.
//
//----------------------------------------------------------------------------
VOID
FreeMem(VOID **ppv, MemType mt)
{
assert(*ppv != NULL);
#if DBG
{
MEMTAB *pmt;
MEMHEADER *pmh;
pmh = GetHeader(*ppv);
if (mt == MT_DIRDB ||
mt == MT_FILEDB ||
mt == MT_INCLUDEDB ||
mt == MT_SOURCEDB) {
SigCheck(assert(((DIRREC *) (*ppv))->Sig == 0));
}
if (mt >= MT_MAX) {
mt = MT_UNKNOWN;
}
pmt = &MemTab[MT_TOTALS];
pmt->cAlloc--;
pmt->cbAlloc -= pmh->cbRequest;
pmt = &MemTab[mt];
pmt->cAlloc--;
pmt->cbAlloc -= pmh->cbRequest;
if (DEBUG_4 && DEBUG_1) {
BuildError(
"FreeMem(%d, mt=%s) <- %lx\r\n",
pmh->cbRequest,
pmt->pszType,
*ppv);
}
assert(CheckTail((char *) *ppv + pmh->cbRequest));
FillTailFree((char *) *ppv + pmh->cbRequest);
assert(mt == pmh->mt);
pmh->pmhNext->pmhPrev = pmh->pmhPrev;
pmh->pmhPrev->pmhNext = pmh->pmhNext;
pmh->pmhNext = pmh->pmhPrev = NULL;
pmh->mt = MT_INVALID;
*ppv = pmh;
}
#endif
free(*ppv);
*ppv = NULL;
}
//+---------------------------------------------------------------------------
//
// Function: ReportMemoryUsage
//
// Synopsis: Report current memory usage (if any) on a debug build. If
// called just before termination, memory leaks will be
// displayed.
//
// Arguments: (none)
//
//----------------------------------------------------------------------------
VOID
ReportMemoryUsage(VOID)
{
#if DBG
MEMTAB *pmt;
UINT i;
if (DEBUG_1) {
BuildErrorRaw(
"Maximum memory usage: %5lx bytes in %4lx blocks\r\n",
cbAllocMax,
cAllocMax);
for (pmt = MemTab; pmt < &MemTab[MT_MAX]; pmt++) {
BuildErrorRaw(
"%5lx bytes in %4lx blocks, %5lx bytes in %4lx blocks Total (%s)\r\n",
pmt->cbAlloc,
pmt->cAlloc,
pmt->cbAllocTotal,
pmt->cAllocTotal,
pmt->pszType);
}
}
FreeMem(&BigBuf, MT_IOBUFFER);
if (fDebug & 8) {
PrintAllDirs();
}
FreeAllDirs();
if (DEBUG_1 || MemTab[MT_TOTALS].cbAlloc != 0) {
BuildErrorRaw(szNewLine);
if (MemTab[MT_TOTALS].cbAlloc != 0) {
BuildError("Internal memory leaks detected:\r\n");
}
for (pmt = MemTab; pmt < &MemTab[MT_MAX]; pmt++) {
BuildErrorRaw(
"%5lx bytes in %4lx blocks, %5lx bytes in %4lx blocks Total (%s)\r\n",
pmt->cbAlloc,
pmt->cAlloc,
pmt->cbAllocTotal,
pmt->cAllocTotal,
pmt->pszType);
}
}
#endif
}
//+---------------------------------------------------------------------------
//
// Function: MyOpenFile
//
// Synopsis: Open a file
//
//----------------------------------------------------------------------------
BOOL
MyOpenFile(
LPSTR DirName,
LPSTR FileName,
LPSTR Access,
FILE **ppf,
BOOL BufferedIO)
{
char path[ DB_MAX_PATH_LENGTH * 2 + 1] = {0}; // ensure we have enough space for "DirName" + "\\" + "FileName"
if (DirName == NULL || DirName[0] == '\0') {
strncpy( path, FileName, sizeof(path) - 1 );
} else {
_snprintf( path, sizeof(path) - 1, "%s\\%s", DirName, FileName );
}
*ppf = fopen( path, Access );
if (*ppf == NULL) {
if (*Access == 'w') {
BuildError("%s: create file failed\r\n", path);
}
return (FALSE);
}
if (!BufferedIO) {
setvbuf(*ppf, NULL, _IONBF, 0); // Clear buffering on the stream.
}
return (TRUE);
}
typedef struct _FILEREADBUF {
struct _FILEREADBUF *pfrbNext;
LPSTR pszFile;
LPSTR pbBuffer;
LPSTR pbNext;
size_t cbBuf;
size_t cbBuffer;
size_t cbTotal;
size_t cbFile;
USHORT cLine;
USHORT cNull;
ULONG DateTime;
FILE *pf;
LPSTR pszCommentToEOL;
size_t cbCommentToEOL;
BOOLEAN fEof;
BOOLEAN fOpen;
BOOLEAN fMakefile;
} FILEREADBUF;
static FILEREADBUF Frb;
char achzeros[16];
//+---------------------------------------------------------------------------
//
// Function: OpenFilePush
//
//----------------------------------------------------------------------------
BOOL
OpenFilePush(
LPSTR pszdir,
LPSTR pszfile,
LPSTR pszCommentToEOL,
FILE **ppf
)
{
FILEREADBUF *pfrb;
if (Frb.fOpen) {
AllocMem(sizeof(*pfrb), &pfrb, MT_FILEREADBUF);
memcpy(pfrb, &Frb, sizeof(*pfrb));
memset(&Frb, 0, sizeof(Frb));
Frb.pfrbNext = pfrb;
} else {
pfrb = NULL;
}
if (!SetupReadFile(
pszdir,
pszfile,
pszCommentToEOL,
ppf)) {
if (pfrb != NULL) {
memcpy(&Frb, pfrb, sizeof(*pfrb));
FreeMem(&pfrb, MT_FILEREADBUF);
}
return FALSE;
}
return TRUE;
}
//+---------------------------------------------------------------------------
//
// Function: ReadFilePush
//
//----------------------------------------------------------------------------
LPSTR
ReadFilePush(LPSTR pszfile)
{
FILE *pf;
assert(Frb.fOpen);
OpenFilePush(IsFullPath(pszfile) ? "" : Frb.pszFile, pszfile,
Frb.pszCommentToEOL, &pf);
return (ReadLine(Frb.pf));
}
//+---------------------------------------------------------------------------
//
// Function: ReadFilePop
//
//----------------------------------------------------------------------------
LPSTR
ReadFilePop(VOID)
{
if (Frb.pfrbNext == NULL) {
return (NULL);
}
CloseReadFile(NULL);
return (ReadLine(Frb.pf));
}
//+---------------------------------------------------------------------------
//
// Function: ReadBuf
//
//----------------------------------------------------------------------------
BOOL
ReadBuf(FILE *pf)
{
LPSTR p, p2;
assert(pf == Frb.pf);
assert(!Frb.fEof);
Frb.pbNext = Frb.pbBuffer;
Frb.cbBuf = fread(Frb.pbBuffer, 1, Frb.cbBuffer - 1, Frb.pf);
if (Frb.cbTotal == 0 &&
Frb.cbBuf > sizeof(achzeros) &&
memcmp(Frb.pbBuffer, achzeros, sizeof(achzeros)) == 0) {
BuildError("ignoring binary file\r\n");
Frb.fEof = TRUE;
return (FALSE);
}
p = &Frb.pbBuffer[Frb.cbBuf - 1];
if (Frb.cbTotal + Frb.cbBuf < Frb.cbFile) {
do {
while (p > Frb.pbBuffer && *p != '\n') {
p--;
}
p2 = p; // save end of last complete line
if (p > Frb.pbBuffer && *p == '\n') {
p--;
if (p > Frb.pbBuffer && *p == '\r') {
p--;
}
while (p > Frb.pbBuffer && (*p == '\t' || *p == ' ')) {
p--;
}
}
} while (*p == '\\');
if (p == Frb.pbBuffer) {
BuildError("(Fatal Error) too many continuation lines\r\n");
exit(8);
}
p = p2; // restore end of last complete line
Frb.cbBuf = p - Frb.pbBuffer + 1;
} else {
Frb.fEof = TRUE; // no more to read
}
p[1] = '\0';
Frb.cbTotal += Frb.cbBuf;
return (TRUE);
}
//+---------------------------------------------------------------------------
//
// Function: IsNmakeInclude
//
//----------------------------------------------------------------------------
LPSTR
IsNmakeInclude(LPSTR pinc)
{
static char szInclude[] = "include";
LPSTR pnew, p;
while (*pinc == ' ') {
pinc++;
}
if (_strnicmp(pinc, szInclude, sizeof(szInclude) - 1) == 0 &&
pinc[sizeof(szInclude) - 1] == ' ') {
pnew = NULL;
pinc += sizeof(szInclude);
while (*pinc == ' ') {
pinc++;
}
if (MakeMacroString(&pnew, pinc)) {
p = strchr(pnew, ' ');
if (p != NULL) {
*p = '\0';
}
return (pnew);
}
}
return (NULL);
}
//+---------------------------------------------------------------------------
//
// Function: ReadLine
//
// Synopsis: Read a line from the input file.
//
// Arguments: [pf] -- File to read from
//
// Returns: Line read from file
//
// Notes: ReadLine returns a canonical line from the input file.
// This involves:
//
// 1) Converting tab to spaces. Various editors/users change
// tabbing.
// 2) Uniformly terminate lines. Some editors drop CR in
// CRLF or add extras.
// 3) Handle file-type-specific continuations.
//
//----------------------------------------------------------------------------
LPSTR
ReadLine(FILE *pf)
{
LPSTR p, pend, pline;
LPSTR pcont;
LPSTR pcomment;
UCHAR chComment0 = Frb.pszCommentToEOL[0];
BOOL fInComment, fWhiteSpace;
assert(pf == Frb.pf || (pf != NULL && Frb.pfrbNext != NULL));
if (Frb.cbBuf == 0) {
if (Frb.fEof) {
return (ReadFilePop());
}
if (fseek(Frb.pf, Frb.cbTotal, SEEK_SET) == -1) {
return (ReadFilePop());
}
if (!ReadBuf(Frb.pf)) {
return (ReadFilePop());
}
}
pline = p = Frb.pbNext;
pend = &p[Frb.cbBuf];
pcont = NULL;
pcomment = NULL;
// scan through line forward
fInComment = FALSE;
while (p < pend) {
switch (*p) {
case ' ':
case '\t':
case '\r':
*p = ' ';
break;
case '\\':
pcont = p; // remember continuation character
break;
case '\n': // Are we at an end of line?
case '\0':
if (*p == '\n') {
Frb.cLine++;
}
if (fInComment) {
memset(pcomment, ' ', p-pcomment-1);
fInComment = FALSE;
}
if (pcont == NULL) {
goto eol; // bail out if single line
} // else combine multiple lines...
*pcont = ' '; // remove continuation char
pcont = NULL; // eat only one line per continuation
*p = ' '; // join the lines with blanks
break;
default:
// See if the character we're examining begins the
// comment-to-EOL string.
if (*p == chComment0 &&
!strncmp(p, Frb.pszCommentToEOL, Frb.cbCommentToEOL) &&
!fInComment) {
fInComment = TRUE;
pcomment = p;
}
pcont = NULL; // not a continuation character
break;
}
p++;
}
eol:
assert(Frb.cbBuf >= p - Frb.pbNext);
Frb.cbBuf -= p - Frb.pbNext;
Frb.pbNext = p;
if (pcont != NULL) {
*pcont = ' '; // file ended with backslash...
}
assert(*p == '\0' || *p == '\n');
if (p < pend) {
if (*p == '\0') {
if (Frb.cNull++ == 0) {
BuildError("null byte at offset %lx\r\n",
Frb.cbTotal - Frb.cbBuf + p - Frb.pbNext);
}
}
*p = '\0'; // terminate line
assert(Frb.cbBuf >= 1);
Frb.cbBuf--; // account for newline (or null)
Frb.pbNext++;
} else {
assert(p == pend && *p == '\0');
if (*pline == 'Z' - 64 && p == &pline[1] && Frb.cbBuf == 0) {
pline = NULL; // found CTL-Z at end of file
} else {
// BuildError( "last line incomplete\r\n");
}
}
fWhiteSpace = FALSE;
if (pline != NULL) {
while (*pline == ' ') {
pline++; // skip leading whitespace
fWhiteSpace = TRUE;
}
if (*p != '\0') {
BuildError( "\"*p != '\\0'\" at offset %lx\r\n",
Frb.cbTotal - Frb.cbBuf + p - Frb.pbNext);
BuildError(
"pline=%x(%s) p=%x(%s)\r\n",
pline,
pline,
p,
p,
Frb.cbTotal - Frb.cbBuf + p - Frb.pbNext);
}
assert(*p == '\0');
while (p > pline && *--p == ' ') {
*p = '\0'; // truncate trailing whitespace
}
}
if (pline == NULL) {
return (ReadFilePop());
}
if (Frb.fMakefile && !fWhiteSpace && *pline == '!') {
p = IsNmakeInclude(pline + 1);
if (p != NULL) {
if (Frb.fMakefile && DEBUG_4) {
BuildError("!include(%s)\r\n", p);
}
pline = ReadFilePush(p);
FreeMem(&p, MT_DIRSTRING);
}
}
return (pline);
}
//+---------------------------------------------------------------------------
//
// Function: SetupReadFile
//
// Synopsis: Open a file and prepare to read from it.
//
// Arguments: [pszdir] -- Directory name
// [pszfile] -- Filename
// [pszCommentToEOL] -- Comment to EOL string
// [ppf] -- [out] Open file handle
//
// Returns: TRUE if opened successfully
//
// Notes: This function, in order to minimize disk hits, reads the
// entire file into a buffer, which is then used by the ReadLine
// function.
//
//----------------------------------------------------------------------------
BOOL
SetupReadFile(
LPSTR pszdir,
LPSTR pszfile,
LPSTR pszCommentToEOL,
FILE **ppf
)
{
char path[DB_MAX_PATH_LENGTH] = {0};
assert(!Frb.fOpen);
assert(Frb.pf == NULL);
assert(Frb.pszFile == NULL);
Frb.fMakefile = strcmp(pszCommentToEOL, "#") == 0;
Frb.DateTime = 0;
if (strlen(pszdir) > sizeof(path)-1) {
BuildError("Path: %s too long - rebuild build.exe with longer DB_MAX_PATH_LENGTH\n", pszdir);
}
strncpy(path, pszdir, sizeof(path));
if (Frb.pfrbNext != NULL) { // if a nested open
LPSTR p;
if (Frb.fMakefile && !IsFullPath(pszfile)) {
// nmake handles relative includes in makefiles by
// attempting to locate the file relative to each makefile
// in the complete include chain.
FILEREADBUF *pfrb;
for (pfrb = Frb.pfrbNext; pfrb != NULL; pfrb = pfrb->pfrbNext) {
assert(pfrb->pszFile != NULL);
strcpy(path, pfrb->pszFile);
p = strrchr(path, '\\');
if (p != NULL) {
*p = '\0';
}
if (ProbeFile(path, pszfile) != -1) {
break;
}
}
if (pfrb == NULL) {
// Unable to find file anywhere along path.
return FALSE;
}
} else {
p = strrchr(path, '\\');
if (p != NULL) {
*p = '\0';
}
}
}
if (!MyOpenFile(path, pszfile, "rb", ppf, TRUE)) {
*ppf = NULL;
return (FALSE);
}
if (Frb.fMakefile) {
Frb.DateTime = (*pDateTimeFile)(path, pszfile);
}
Frb.cLine = 0;
Frb.cNull = 0;
Frb.cbTotal = 0;
Frb.pf = *ppf;
Frb.fEof = FALSE;
Frb.pszCommentToEOL = pszCommentToEOL;
Frb.cbCommentToEOL = strlen(pszCommentToEOL);
if (fseek(Frb.pf, 0L, SEEK_END) != -1) {
Frb.cbFile = ftell(Frb.pf);
if (fseek(Frb.pf, 0L, SEEK_SET) == -1) {
Frb.cbFile = 0;
}
} else {
Frb.cbFile = 0;
}
Frb.cbBuffer = BigBufSize;
if (Frb.pfrbNext != NULL) {
if (Frb.cbBuffer > Frb.cbFile + 1) {
Frb.cbBuffer = Frb.cbFile + 1;
}
AllocMem(Frb.cbBuffer, &Frb.pbBuffer, MT_IOBUFFER);
} else {
Frb.pbBuffer = BigBuf;
}
if (!ReadBuf(Frb.pf)) {
fclose(Frb.pf);
Frb.pf = *ppf = NULL;
if (Frb.pfrbNext != NULL) {
FreeMem(&Frb.pbBuffer, MT_IOBUFFER);
}
return (FALSE); // zero byte file
}
if (path[0] != '\0') {
strcat(path, "\\");
}
strcat(path, pszfile);
MakeString(&Frb.pszFile, path, TRUE, MT_FRBSTRING);
Frb.fOpen = TRUE;
if (Frb.fMakefile && DEBUG_4) {
BuildError(
"Opening file: cbFile=%Iu cbBuf=%lu\r\n",
Frb.cbTotal,
Frb.cbBuffer);
}
return (TRUE);
}
//+---------------------------------------------------------------------------
//
// Function: CloseReadFile
//
// Synopsis: Close the open file buffer.
//
// Arguments: [pcline] -- [out] Count of lines in file.
//
// Returns: Timestamp of file
//
//----------------------------------------------------------------------------
ULONG
CloseReadFile(
UINT *pcline
)
{
assert(Frb.fOpen);
assert(Frb.pf != NULL);
assert(Frb.pszFile != NULL);
if (Frb.fMakefile && DEBUG_4) {
BuildError("Closing file\r\n");
}
if (Frb.cNull > 1) {
BuildError("%hu null bytes in file\r\n", Frb.cNull);
}
fclose(Frb.pf);
Frb.fOpen = FALSE;
Frb.pf = NULL;
FreeString(&Frb.pszFile, MT_FRBSTRING);
if (Frb.pfrbNext != NULL) {
FILEREADBUF *pfrb;
FreeMem(&Frb.pbBuffer, MT_IOBUFFER);
pfrb = Frb.pfrbNext;
if (pfrb->DateTime < Frb.DateTime) {
pfrb->DateTime = Frb.DateTime; // propagate subordinate timestamp
}
memcpy(&Frb, pfrb, sizeof(*pfrb));
FreeMem(&pfrb, MT_FILEREADBUF);
}
if (pcline != NULL) {
*pcline = Frb.cLine;
}
return (Frb.DateTime);
}
//+---------------------------------------------------------------------------
//
// Function: ProbeFile
//
// Synopsis: Determine if a file exists
//
//----------------------------------------------------------------------------
UINT
ProbeFile(
LPSTR DirName,
LPSTR FileName
)
{
char path[ DB_MAX_PATH_LENGTH ];
if (DirName != NULL) {
sprintf(path, "%s\\%s", DirName, FileName);
FileName = path;
}
return (GetFileAttributes(FileName));
}
//+---------------------------------------------------------------------------
//
// Function: EnsureDirectoriesExist
//
// Synopsis: Ensures the given directory exists. If the path contains
// an asterisk, it will be expanded into all current machine
// target names.
//
// Arguments: [DirName] -- Name of directory to create if necessary
//
// Returns: FALSE if the directory could not be created, TRUE if it
// already exists or it could be created.
//
//----------------------------------------------------------------------------
BOOL
EnsureDirectoriesExist(
LPSTR DirName
)
{
char path[ DB_MAX_PATH_LENGTH ];
char *p;
UINT i;
if (!DirName || DirName[0] == '\0')
return FALSE;
for (i = 0; i < CountTargetMachines; i++) {
// Replace '*' with appropriate name
ExpandObjAsterisk(
path,
DirName,
TargetMachines[i]->ObjectDirectory);
if (ProbeFile(NULL, path) != -1) {
continue;
}
p = path;
while (TRUE) {
p = strchr(p, '\\');
if (p != NULL) {
*p = '\0';
}
if (!CreateBuildDirectory(path)) {
return FALSE;
}
if (p == NULL) {
break;
}
*p++ = '\\';
}
}
return TRUE;
}
//+---------------------------------------------------------------------------
//
// Function: DateTimeFile
//
// Synopsis: Get the timestamp on a file
//
//----------------------------------------------------------------------------
ULONG
DateTimeFile(
LPSTR DirName,
LPSTR FileName
)
{
char path[ DB_MAX_PATH_LENGTH ];
WIN32_FIND_DATA FindFileData;
HDIR FindHandle;
ULONG FileDateTime;
if (DirName == NULL || DirName[0] == '\0') {
FindHandle = FindFirstFile( FileName, &FindFileData );
} else {
_snprintf( path, sizeof(path)-1, "%s\\%s", DirName, FileName );
FindHandle = FindFirstFile( path, &FindFileData );
}
if (FindHandle == (HDIR)INVALID_HANDLE_VALUE) {
return ( 0L );
} else {
FindClose( FindHandle );
FileDateTime = 0L;
FileTimeToDosDateTime( &FindFileData.ftLastWriteTime,
((LPWORD)&FileDateTime)+1,
(LPWORD)&FileDateTime
);
return ( FileDateTime );
}
}
//+---------------------------------------------------------------------------
//
// Function: DateTimeFile2
//
// Synopsis: Get the timestamp on a file using the new GetFileAttributesExA
//
//----------------------------------------------------------------------------
ULONG
DateTimeFile2(
LPSTR DirName,
LPSTR FileName
)
{
char path[ DB_MAX_PATH_LENGTH ] = {0};
WIN32_FILE_ATTRIBUTE_DATA FileData;
ULONG FileDateTime;
BOOL rc;
if (DirName == NULL || DirName[0] == '\0') {
strncpy( path, FileName, sizeof(path) - 1 );
} else {
_snprintf( path, sizeof(path)-1, "%s\\%s", DirName, FileName );
}
rc = (*pGetFileAttributesExA) (path, GetFileExInfoStandard, (LPVOID)&FileData);
if (!rc) {
return ( 0L );
} else {
FILETIME ftSystemTime;
SYSTEMTIME stSystemTime;
unsigned __int64 ui64Local, ui64File;
GetSystemTime(&stSystemTime);
SystemTimeToFileTime(&stSystemTime, &ftSystemTime);
ui64Local = (((unsigned __int64) ftSystemTime.dwHighDateTime) << 32) +
(unsigned __int64) ftSystemTime.dwLowDateTime;
ui64File = (((unsigned __int64) FileData.ftLastWriteTime.dwHighDateTime) << 32) +
(unsigned __int64) FileData.ftLastWriteTime.dwLowDateTime;
// Take into account that file times may have two second intervals (0x989680 = 1 second)
// for FAT drives.
if (ui64File > (ui64Local + (0x989680*2))) {
BuildError("ERROR - \"%s\" file time is in the future.\r\n", path);
}
FileDateTime = 0L;
FileTimeToDosDateTime( &FileData.ftLastWriteTime,
((LPWORD)&FileDateTime)+1,
(LPWORD)&FileDateTime
);
return ( FileDateTime );
}
}
//+---------------------------------------------------------------------------
//
// Function: DeleteSingleFile
//
// Synopsis: Delete the given file
//
//----------------------------------------------------------------------------
BOOL
DeleteSingleFile(
LPSTR DirName,
LPSTR FileName,
BOOL QuietFlag
)
{
char path[ DB_MAX_PATH_LENGTH * 2 + 1]; // ensure we have enough space for "DirName" + "\\" + "FileName"
if (DirName) {
sprintf( path, "%s\\%s", DirName, FileName );
} else {
strcpy( path, FileName );
}
if (!QuietFlag && fQuery) {
BuildMsgRaw("'erase %s'\r\n", path);
return ( TRUE );
}
return ( DeleteFile( path ) );
}
//+---------------------------------------------------------------------------
//
// Function: DeleteMultipleFiles
//
// Synopsis: Delete one or more files matching a pattern.
//
//----------------------------------------------------------------------------
BOOL
DeleteMultipleFiles(
LPSTR DirName,
LPSTR FilePattern
)
{
char path[ DB_MAX_PATH_LENGTH ];
WIN32_FIND_DATA FindFileData;
HDIR FindHandle;
sprintf( path, "%s\\%s", DirName, FilePattern );
if (fQuery) {
BuildMsgRaw("'erase %s'\r\n", path);
return ( TRUE );
}
FindHandle = FindFirstFile( path, &FindFileData );
if (FindHandle == (HDIR)INVALID_HANDLE_VALUE) {
return ( FALSE );
}
do {
if (!(FindFileData.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY)) {
DeleteSingleFile( DirName, FindFileData.cFileName, TRUE );
}
}
while (FindNextFile( FindHandle, &FindFileData ));
FindClose( FindHandle );
return ( TRUE );
}
//+---------------------------------------------------------------------------
//
// Function: CloseOrDeleteFile
//
//----------------------------------------------------------------------------
BOOL
CloseOrDeleteFile(
FILE **ppf,
LPSTR DirName,
LPSTR FileName,
ULONG SizeThreshold
)
{
ULONG Temp;
if (*ppf == NULL) {
return TRUE;
}
Temp = ftell( *ppf );
fclose( *ppf );
*ppf = NULL;
if (Temp <= SizeThreshold) {
return ( DeleteSingleFile( DirName, FileName, TRUE ) );
} else {
CreatedBuildFile(DirName, FileName);
return ( TRUE );
}
}
//+---------------------------------------------------------------------------
//
// Function: PushCurrentDirectory
//
//----------------------------------------------------------------------------
LPSTR
PushCurrentDirectory(
LPSTR NewCurrentDirectory
)
{
LPSTR OldCurrentDirectory;
char path[DB_MAX_PATH_LENGTH];
GetCurrentDirectory(sizeof(path), path);
AllocMem(strlen(path) + 1, &OldCurrentDirectory, MT_DIRPATH);
strcpy(OldCurrentDirectory, path);
SetCurrentDirectory(NewCurrentDirectory);
return (OldCurrentDirectory);
}
//+---------------------------------------------------------------------------
//
// Function: PopCurrentDirectory
//
//----------------------------------------------------------------------------
VOID
PopCurrentDirectory(
LPSTR OldCurrentDirectory
)
{
if (OldCurrentDirectory) {
SetCurrentDirectory(OldCurrentDirectory);
FreeMem(&OldCurrentDirectory, MT_DIRPATH);
}
}
//+---------------------------------------------------------------------------
//
// Function: CanonicalizePathName
//
// Synopsis: Take the given relative pathname and the current directory
// and obtain the full absolute path of the file.
//
// Arguments: [SourcePath] -- Relative path
// [Action] -- Canonicalizing flags
// [FullPath] -- [out] Full path of file or directory
//
// Returns: TRUE if canonicalization succeeded.
//
// Notes: [Action] indicates whether the function will fail if the
// resulting path is not of the correct type. CANONICALIZE_ONLY
// never fails, and CANON..._FILE or CANON..._DIR will fail if
// the resulting path is not of the specified type.
//
//----------------------------------------------------------------------------
BOOL
CanonicalizePathName(
LPSTR SourcePath,
UINT Action,
LPSTR FullPath
)
{
char PathBuffer[DB_MAX_PATH_LENGTH] = {0},
*FilePart;
char *psz;
DWORD attr;
if (!GetFullPathName(
SourcePath,
sizeof(PathBuffer),
PathBuffer,
&FilePart)) {
BuildError(
"CanonicalizePathName: GetFullPathName(%s) failed - rc = %d.\r\n",
SourcePath,
GetLastError());
return ( FALSE );
}
CopyString(FullPath, PathBuffer, TRUE);
if (Action == CANONICALIZE_ONLY) {
return ( TRUE );
}
if ((attr = GetFileAttributes( PathBuffer )) == -1) {
UINT rc = GetLastError();
if (DEBUG_1 ||
(rc != ERROR_FILE_NOT_FOUND && rc != ERROR_PATH_NOT_FOUND)) {
BuildError(
"CanonicalizePathName: GetFileAttributes(%s --> %s) failed - rc = %d.\r\n",
SourcePath,
PathBuffer,
rc);
}
return ( FALSE );
}
if (Action == CANONICALIZE_DIR) {
if ((attr & FILE_ATTRIBUTE_DIRECTORY) != 0) {
return (TRUE);
}
psz = "directory";
} else {
if ((attr & FILE_ATTRIBUTE_DIRECTORY) == 0) {
return (TRUE);
}
psz = "file";
}
BuildError(
"CanonicalizePathName: %s --> %s is not a %s\r\n",
SourcePath,
PathBuffer,
psz);
return (FALSE);
}
static char FormatPathBuffer[ DB_MAX_PATH_LENGTH ];
//+---------------------------------------------------------------------------
//
// Function: FormatPathName
//
// Synopsis: Take a directory name and relative pathname and merges the
// two into a correctly formatted path. If the resulting path
// has the current directory as a component, the current
// directory part is removed.
//
// Arguments: [DirName] -- Directory
// [FileName] -- Pathname relative to [DirName]
//
// Returns: Resulting string (should not be freed).
//
// Notes: Example: DirName="f:\nt\private\foo\subdir1\subdir2"
// FileName="..\..\bar.c"
// CurrentDirectory="f:\nt\private"
// Result="foo\bar.c"
//
//----------------------------------------------------------------------------
LPSTR
FormatPathName(
LPSTR DirName,
LPSTR FileName
)
{
UINT cb;
LPSTR p;
CopyString(FormatPathBuffer, CurrentDirectory, TRUE);
if (DirName && *DirName) {
if (DirName[1] == ':') {
p = FormatPathBuffer;
} else
if (DirName[0] == '\\') {
p = FormatPathBuffer + 2;
} else {
p = FormatPathBuffer + strlen(FormatPathBuffer);
*p++ = '\\';
}
CopyString(p, DirName, TRUE);
}
p = FormatPathBuffer + strlen(FormatPathBuffer);
if (p[-1] != '\\') {
*p++ = '\\';
*p = '\0';
}
if (FileName[1] == ':') {
p = FormatPathBuffer;
} else
if (FileName[0] == '\\') {
p = FormatPathBuffer + 2;
} else
if (!strncmp(FileName, ".\\", 2)) {
FileName += 2;
} else
if (!strncmp(FileName, "..\\", 3)) {
do {
p--;
while (*--p != '\\') {
if (p <= FormatPathBuffer) {
p = FormatPathBuffer;
break;
}
}
p++;
FileName += 3;
}
while (!strncmp(FileName, "..\\", 3) && (p != FormatPathBuffer));
}
CopyString(p, FileName, TRUE);
cb = strlen(CurrentDirectory);
p = FormatPathBuffer + cb;
if (!fAlwaysPrintFullPath) {
if (!_strnicmp(CurrentDirectory, FormatPathBuffer, cb) && *p == '\\') {
return (p + 1);
}
}
return (FormatPathBuffer);
}
//+---------------------------------------------------------------------------
//
// Function: AppendString
//
//----------------------------------------------------------------------------
LPSTR
AppendString(
LPSTR Destination,
LPSTR Source,
BOOL PrefixWithSpace
)
{
if (Source != NULL) {
while (*Destination) {
Destination++;
}
if (PrefixWithSpace) {
*Destination++ = ' ';
}
while (*Destination = *Source++) {
Destination++;
}
}
return (Destination);
}
#if DBG
//+---------------------------------------------------------------------------
//
// Function: AssertPathString
//
//----------------------------------------------------------------------------
VOID
AssertPathString(LPSTR pszPath)
{
LPSTR p = pszPath;
while (*p != '\0') {
if ((*p >= 'A' && *p <= 'Z') || *p == '/') {
BuildError("Bad Path string: '%s'\r\n", pszPath);
assert(FALSE);
}
p++;
}
}
#endif
//+---------------------------------------------------------------------------
//
// Function: CopyString
//
//----------------------------------------------------------------------------
LPSTR
CopyString(
LPSTR Destination,
LPSTR Source,
BOOL fPath)
{
UCHAR ch;
LPSTR Result;
Result = Destination;
while ((ch = *Source++) != '\0') {
if (fPath) {
if (ch >= 'A' && ch <= 'Z') {
ch -= (UCHAR) ('A' - 'a');
} else if (ch == '/') {
ch = '\\';
}
}
*Destination++ = ch;
}
*Destination = ch;
return (Result);
}
//+---------------------------------------------------------------------------
//
// Function: MakeString
//
//----------------------------------------------------------------------------
VOID
MakeString(
LPSTR *Destination,
LPSTR Source,
BOOL fPath,
MemType mt
)
{
if (Source == NULL) {
Source = "";
}
AllocMem(strlen(Source) + 1, Destination, mt);
*Destination = CopyString(*Destination, Source, fPath);
}
//+---------------------------------------------------------------------------
//
// Function: MakeExpandedString
//
//----------------------------------------------------------------------------
VOID
MakeExpandedString(
LPSTR *Destination,
LPSTR Source
)
{
AllocMem(strlen(Source) + strlen(NtRoot) + 1, Destination, MT_DIRSTRING);
sprintf(*Destination, "%s%s", NtRoot, Source);
}
//+---------------------------------------------------------------------------
//
// Function: FreeString
//
//----------------------------------------------------------------------------
VOID
FreeString(LPSTR *ppsz, MemType mt)
{
if (*ppsz != NULL) {
FreeMem(ppsz, mt);
}
}
//+---------------------------------------------------------------------------
//
// Function: FormatNumber
//
//----------------------------------------------------------------------------
LPSTR
FormatNumber(
ULONG Number
)
{
USHORT i;
LPSTR p;
static char FormatNumberBuffer[16];
p = FormatNumberBuffer + sizeof( FormatNumberBuffer ) - 1;
*p = '\0';
i = 0;
do {
if (i != 0 && (i % 3) == 0) {
*--p = ',';
}
i++;
*--p = (UCHAR) ((Number % 10) + '0');
Number /= 10;
} while (Number != 0);
return ( p );
}
//+---------------------------------------------------------------------------
//
// Function: FormatTime
//
//----------------------------------------------------------------------------
LPSTR
FormatTime(
ULONG Seconds
)
{
ULONG Hours, Minutes;
static char FormatTimeBuffer[16];
Hours = Seconds / 3600;
Seconds = Seconds % 3600;
Minutes = Seconds / 60;
Seconds = Seconds % 60;
sprintf( FormatTimeBuffer,
"%2ld:%02ld:%02ld",
Hours,
Minutes,
Seconds
);
return ( FormatTimeBuffer );
}
//+---------------------------------------------------------------------------
//
// Function: AToX
//
// Synopsis: Hex atoi with pointer bumping and success flag
//
// Arguments: [pp] -- String to convert
// [pul] -- [out] Result
//
// Returns: TRUE if success
//
//----------------------------------------------------------------------------
BOOL
AToX(LPSTR *pp, ULONG *pul)
{
LPSTR p = *pp;
int digit;
ULONG r;
BOOL fRet = FALSE;
while (*p == ' ') {
p++;
}
for (r = 0; isxdigit(digit = *p); p++) {
fRet = TRUE;
if (isdigit(digit)) {
digit -= '0';
} else if (isupper(digit)) {
digit -= 'A' - 10;
} else {
digit -= 'a' - 10;
}
r = (r << 4) + digit;
}
*pp = p;
*pul = r;
return (fRet);
}
//+---------------------------------------------------------------------------
//
// Function: AToD
//
// Synopsis: Decimal atoi with pointer bumping and success flag
//
// Arguments: [pp] -- String to convert
// [pul] -- [out] Result
//
// Returns: TRUE if success
//
//----------------------------------------------------------------------------
BOOL
AToD(LPSTR *pp, ULONG *pul)
{
LPSTR p = *pp;
int digit;
ULONG r;
BOOL fRet = FALSE;
while (*p == ' ') {
p++;
}
for (r = 0; isdigit(digit = *p); p++) {
fRet = TRUE;
r = (r * 10) + digit - '0';
}
*pp = p;
*pul = r;
return (fRet);
}
//+---------------------------------------------------------------------------
//
// Logging and Display Functions
//
//----------------------------------------------------------------------------
VOID
__cdecl
LogMsg(const char *pszfmt, ...)
{
va_list va;
if (LogFile != NULL) {
va_start(va, pszfmt);
vfprintf(LogFile, pszfmt, va);
va_end(va);
}
}
VOID
EnterMessageMode(VOID)
{
EnterCriticalSection(&TTYCriticalSection);
if (fConsoleInitialized &&
(NewConsoleMode & ENABLE_WRAP_AT_EOL_OUTPUT) == 0) {
SetConsoleMode(
GetStdHandle(STD_ERROR_HANDLE),
NewConsoleMode | ENABLE_WRAP_AT_EOL_OUTPUT);
}
}
VOID
LeaveMessageMode(VOID)
{
if (fConsoleInitialized &&
(NewConsoleMode & ENABLE_WRAP_AT_EOL_OUTPUT) == 0) {
SetConsoleMode(GetStdHandle(STD_ERROR_HANDLE), NewConsoleMode);
}
LeaveCriticalSection(&TTYCriticalSection);
}
void
__stdcall
WriteMsgStdErr(
WORD wAttributes,
BOOL fBuildPrefix,
BOOL fPrintFrbInfo,
const char *pszFormat,
va_list *vaArgs)
{
EnterMessageMode();
if (fBuildPrefix)
ClearLine();
if (fColorConsole && wAttributes)
SetConsoleTextAttribute(GetStdHandle(STD_ERROR_HANDLE), wAttributes);
if (fBuildPrefix)
fprintf(stderr, "BUILD: ");
if (fPrintFrbInfo && Frb.fOpen) {
fprintf (stderr, "%s(%hu): ", Frb.pszFile, Frb.cLine);
}
vfprintf(stderr, pszFormat, *vaArgs);
fflush(stderr);
if (fColorConsole && wAttributes)
SetConsoleTextAttribute(GetStdHandle(STD_ERROR_HANDLE), DefaultConsoleAttributes);
LeaveMessageMode();
}
VOID
__cdecl
BuildMsg(const char *pszfmt, ...)
{
va_list va;
va_start(va, pszfmt);
WriteMsgStdErr(0, TRUE, FALSE, pszfmt, &va);
}
void
__cdecl
BuildColorMsg(WORD wAttributes, const char *pszfmt, ...)
{
va_list va;
va_start(va, pszfmt);
WriteMsgStdErr(wAttributes, TRUE, FALSE, pszfmt, &va);
}
VOID
__cdecl
BuildMsgRaw(const char *pszfmt, ...)
{
va_list va;
va_start(va, pszfmt);
WriteMsgStdErr(0, FALSE, FALSE, pszfmt, &va);
}
VOID
__cdecl
BuildColorMsgRaw(WORD wAttributes, const char *pszfmt, ...)
{
va_list va;
va_start(va, pszfmt);
WriteMsgStdErr(wAttributes, FALSE, FALSE, pszfmt, &va);
}
VOID
__cdecl
BuildError(const char *pszfmt, ...)
{
va_list va;
va_start(va, pszfmt);
WriteMsgStdErr(0, TRUE, TRUE, pszfmt, &va);
if (LogFile != NULL) {
va_start(va, pszfmt);
fprintf(LogFile, "BUILD: ");
if (Frb.fOpen) {
fprintf (LogFile, "%s(%hu): ", Frb.pszFile, Frb.cLine);
}
vfprintf(LogFile, pszfmt, va);
va_end(va);
fflush(LogFile);
}
}
VOID
__cdecl
BuildColorError(WORD wAttributes, const char *pszfmt, ...)
{
va_list va;
va_start(va, pszfmt);
WriteMsgStdErr(wAttributes, TRUE, TRUE, pszfmt, &va);
if (LogFile != NULL) {
va_start(va, pszfmt);
fprintf(LogFile, "BUILD: ");
if (Frb.fOpen) {
fprintf (LogFile, "%s(%hu): ", Frb.pszFile, Frb.cLine);
}
vfprintf(LogFile, pszfmt, va);
va_end(va);
fflush(LogFile);
}
}
VOID
__cdecl
BuildErrorRaw(const char *pszfmt, ...)
{
va_list va;
va_start(va, pszfmt);
WriteMsgStdErr(0, FALSE, FALSE, pszfmt, &va);
if (LogFile != NULL) {
va_start(va, pszfmt);
vfprintf(LogFile, pszfmt, va);
va_end(va);
fflush(LogFile);
}
}
VOID
__cdecl
BuildColorErrorRaw(WORD wAttributes, const char *pszfmt, ...)
{
va_list va;
va_start(va, pszfmt);
WriteMsgStdErr(wAttributes, FALSE, FALSE, pszfmt, &va);
if (LogFile != NULL) {
va_start(va, pszfmt);
vfprintf(LogFile, pszfmt, va);
va_end(va);
fflush(LogFile);
}
}
//+---------------------------------------------------------------------------
//
// Function: memfind
//
// Synopsis: Finds a sub-string by length (can contain nulls)
//
// Arguments: [pvWhere] -- String to search (can contain nulls)
// [cbWhere] -- Length in bytes of the string to search
// [pvWhat] -- String to search for (can contain nulls)
// [cbWhat] -- Length in bytes of the string to search for
//
// Returns: Pointer to the first occurence of pvWhat in pvWhere
// NULL, if not found or if the input parameters are not valid
//
//----------------------------------------------------------------------------
VOID*
memfind(VOID* pvWhere, DWORD cbWhere, VOID* pvWhat, DWORD cbWhat)
{
DWORD dwWhat = 0;
DWORD dwWhere = 0;
DWORD dwFoundStart = 0;
// input validation
if (cbWhere < cbWhat || pvWhere == NULL || pvWhat == NULL)
return NULL;
while (dwFoundStart <= cbWhere - cbWhat && dwWhat < cbWhat) {
if ( ((BYTE*)pvWhat)[dwWhat] != ((BYTE*)pvWhere)[dwWhere]) {
dwWhat = 0;
dwFoundStart++;
dwWhere = dwFoundStart;
} else {
dwWhat++;
dwWhere++;
}
}
if (dwWhat == cbWhat)
return (BYTE*)pvWhere + dwFoundStart;
return NULL;
}
//
// XML Logging
//
//#define MAX_XML_BUFFER_SIZE 2048
char szXMLPrivateBuffer[2048];//MAX_XML_BUFFER_SIZE];
BOOL
XMLInit(VOID)
{
UINT i;
if (fXMLOutput) {
// copy the XML schema to the log directory
char buffer[MAX_PATH];
char* psz = buffer + GetModuleFileName(NULL, buffer, sizeof(buffer));
while (psz > buffer && *psz != '\\') {
--psz;
}
++psz;
strcpy(psz, XML_SCHEMA);
// check if there is a schema file in the current directory
if (GetFileAttributes(XML_SCHEMA) == 0xFFFFFFFF) {
// copy the schema to the current directory
if (!CopyFile(buffer, XML_SCHEMA, FALSE)) {
BuildError("(Fatal Error) Unable to copy the XML schema file\n");
return FALSE;
}
}
}
if (fXMLOutput || fXMLFragment) {
// initialize the memory structures
AllocMem(sizeof(PXMLTHREADSTATE)*(NumberProcesses+1), (VOID**)&PXMLThreadStates, MT_PXMLTHREADSTATE);
for (i = 0; i < NumberProcesses+1; i++) {
AllocMem(sizeof(XMLTHREADSTATE), (VOID**)&(PXMLThreadStates[i]), MT_XMLTHREADSTATE);
memset(PXMLThreadStates[i], 0, sizeof(XMLTHREADSTATE));
PXMLThreadStates[i]->iXMLFileStart = -1;
}
AllocMem(sizeof(XMLTHREADSTATE), (VOID**)&(PXMLGlobalState), MT_XMLTHREADSTATE);
memset(PXMLGlobalState, 0, sizeof(XMLTHREADSTATE));
PXMLGlobalState->iXMLFileStart = 0;
InitializeCriticalSection(&XMLCriticalSection);
fXMLInitialized = TRUE;
}
return TRUE;
}
VOID
XMLUnInit(VOID)
{
if (fXMLInitialized) {
UINT i;
for (i = 0; i < NumberProcesses+1; i++) {
FreeMem((VOID**)&(PXMLThreadStates[i]), MT_XMLTHREADSTATE);
}
FreeMem((VOID**)&PXMLGlobalState, MT_XMLTHREADSTATE);
FreeMem((VOID**)&PXMLThreadStates, MT_PXMLTHREADSTATE);
DeleteCriticalSection(&XMLCriticalSection);
fXMLInitialized = FALSE;
}
}
VOID _cdecl
XMLThreadWrite(PTHREADSTATE ThreadState, LPCSTR pszFmt, ...)
{
va_list va;
DWORD dwBufferLen;
SIZE_T dwCurrentFilePos;
PXMLTHREADSTATE OtherXMLState;
PXMLTHREADSTATE XMLState;
UINT i;
if (!fXMLInitialized)
return;
XMLEnterCriticalSection();
XMLState = PXMLThreadStates[ThreadState->XMLThreadIndex];
XMLThreadInitBuffer(ThreadState);
ZeroMemory(szXMLPrivateBuffer, sizeof(szXMLPrivateBuffer));
// build the string to write out
va_start(va, pszFmt);
_vsnprintf(szXMLPrivateBuffer, sizeof(szXMLPrivateBuffer)-1, pszFmt, va);
va_end(va);
dwBufferLen = strlen(szXMLPrivateBuffer);
dwCurrentFilePos = XMLState->iXMLFileStart + XMLState->iXMLBufferPos;
if (fXMLOutput) {
// write it into the file
if (fseek(XMLFile, (long)dwCurrentFilePos, SEEK_SET) != -1) {
fwrite(szXMLPrivateBuffer, 1, dwBufferLen, XMLFile);
// put back the thread tail
fwrite(XMLState->XMLBuffer + XMLState->iXMLBufferPos, 1, XMLState->iXMLBufferLen - XMLState->iXMLBufferPos, XMLFile);
}
}
dwCurrentFilePos += dwBufferLen + XMLState->iXMLBufferLen - XMLState->iXMLBufferPos;
// insert the string into the thread buffer
memmove(XMLState->XMLBuffer + XMLState->iXMLBufferPos + dwBufferLen, XMLState->XMLBuffer + XMLState->iXMLBufferPos, XMLState->iXMLBufferLen - XMLState->iXMLBufferPos + 1); // include the null terminator
memmove(XMLState->XMLBuffer + XMLState->iXMLBufferPos, szXMLPrivateBuffer, dwBufferLen);
XMLState->iXMLBufferPos += dwBufferLen;
XMLState->iXMLBufferLen += dwBufferLen;
// write back the threads that got overwritten
// will reorder them but it doesn't really matter since the final order is
// the one in they finish
for (i = 0; i < NumberProcesses+1; i++) {
if (i != ThreadState->XMLThreadIndex) {
OtherXMLState = PXMLThreadStates[i];
if (OtherXMLState->iXMLFileStart < XMLState->iXMLFileStart) {
continue;
}
OtherXMLState->iXMLFileStart = dwCurrentFilePos;
if (fXMLOutput) {
fwrite(OtherXMLState->XMLBuffer, 1, OtherXMLState->iXMLBufferLen, XMLFile);
}
dwCurrentFilePos += OtherXMLState->iXMLBufferLen;
}
}
// update the global tail position
PXMLGlobalState->iXMLFileStart = dwCurrentFilePos;
if (fXMLOutput) {
// write back the global tail
fwrite(PXMLGlobalState->XMLBuffer, 1, PXMLGlobalState->iXMLBufferLen, XMLFile);
fflush(XMLFile);
}
XMLLeaveCriticalSection();
}
VOID _cdecl
XMLThreadOpenTag(PTHREADSTATE ThreadState, LPCSTR pszTag, LPCSTR pszFmt, ...)
{
va_list va;
DWORD dwMidBufferLen;
DWORD dwBufferLen;
SIZE_T dwCurrentFilePos;
DWORD dwTagLen = strlen(pszTag);
PXMLTHREADSTATE OtherXMLState;
PXMLTHREADSTATE XMLState;
UINT i;
if (!fXMLInitialized)
return;
XMLEnterCriticalSection();
XMLState = PXMLThreadStates[ThreadState->XMLThreadIndex];
XMLThreadInitBuffer(ThreadState);
// build the string to write out
szXMLPrivateBuffer[0] = '<';
strcpy(szXMLPrivateBuffer + 1, pszTag);
if (pszFmt != NULL) {
va_start(va, pszFmt);
strcat(szXMLPrivateBuffer, " ");
vsprintf(szXMLPrivateBuffer + strlen(szXMLPrivateBuffer), pszFmt, va);
va_end(va);
}
strcat(szXMLPrivateBuffer, ">");
dwMidBufferLen = strlen(szXMLPrivateBuffer);
szXMLPrivateBuffer[dwMidBufferLen] = '<';
szXMLPrivateBuffer[dwMidBufferLen + 1] = '/';
memcpy(szXMLPrivateBuffer + dwMidBufferLen + 2, pszTag, dwTagLen);
szXMLPrivateBuffer[dwMidBufferLen + dwTagLen + 2] = '>';
dwBufferLen = dwMidBufferLen + dwTagLen + 3;
// write it into the file
dwCurrentFilePos = XMLState->iXMLFileStart + XMLState->iXMLBufferPos;
if (fXMLOutput) {
if (fseek(XMLFile, (long)dwCurrentFilePos, SEEK_SET) != -1) {
fwrite(szXMLPrivateBuffer, 1, dwBufferLen, XMLFile);
// put back the thread tail
fwrite(XMLState->XMLBuffer + XMLState->iXMLBufferPos, 1, XMLState->iXMLBufferLen - XMLState->iXMLBufferPos, XMLFile);
}
}
dwCurrentFilePos += dwBufferLen + XMLState->iXMLBufferLen - XMLState->iXMLBufferPos;
// insert the string into the thread buffer
memmove(XMLState->XMLBuffer + XMLState->iXMLBufferPos + dwBufferLen, XMLState->XMLBuffer + XMLState->iXMLBufferPos, XMLState->iXMLBufferLen - XMLState->iXMLBufferPos + 1); // include the null terminator
memmove(XMLState->XMLBuffer + XMLState->iXMLBufferPos, szXMLPrivateBuffer, dwBufferLen);
// don't increase the buffer pos with the full string length but until the end of the open tag only
XMLState->iXMLBufferPos += dwMidBufferLen;
XMLState->iXMLBufferLen += dwBufferLen;
// write back the threads that got overwritten
// will reorder them but it doesn't really matter since the final order is
// the one in they finish
for (i = 0; i < NumberProcesses+1; i++) {
if (i != ThreadState->XMLThreadIndex) {
OtherXMLState = PXMLThreadStates[i];
if (OtherXMLState->iXMLFileStart < XMLState->iXMLFileStart) {
continue;
}
OtherXMLState->iXMLFileStart = dwCurrentFilePos;
if (fXMLOutput) {
fwrite(OtherXMLState->XMLBuffer, 1, OtherXMLState->iXMLBufferLen, XMLFile);
}
dwCurrentFilePos += OtherXMLState->iXMLBufferLen;
}
}
// update the global tail position
PXMLGlobalState->iXMLFileStart = dwCurrentFilePos;
if (fXMLOutput) {
// write back the global tail
fwrite(PXMLGlobalState->XMLBuffer, 1, PXMLGlobalState->iXMLBufferLen, XMLFile);
fflush(XMLFile);
}
XMLLeaveCriticalSection();
}
VOID
XMLThreadCloseTag(PTHREADSTATE ThreadState, LPCSTR pszTag)
{
PXMLTHREADSTATE XMLState;
char* psz;
if (!fXMLInitialized)
return;
XMLEnterCriticalSection();
XMLState = PXMLThreadStates[ThreadState->XMLThreadIndex];
psz = XMLState->XMLBuffer + XMLState->iXMLBufferPos;
if (XMLState->iXMLFileStart == -1) {
XMLLeaveCriticalSection();
return;
}
assert(*psz == '<');
assert(strncmp(psz+2, pszTag, strlen(pszTag))==0);
while (*psz != '>')
psz++;
psz++;
XMLState->iXMLBufferPos += psz - (XMLState->XMLBuffer + XMLState->iXMLBufferPos);
XMLLeaveCriticalSection();
}
VOID
XMLThreadReleaseBuffer(PTHREADSTATE ThreadState)
{
// this op may cause the other thread blocks to move towards the end of the file
// but we can't keep more than one block per thread so we have to live with it
UINT i;
SIZE_T iMinFileStart = LONG_MAX;
int iMinThreadIndex = -1;
PXMLTHREADSTATE OtherXMLState;
PXMLTHREADSTATE XMLState;
SIZE_T dwCurrentFilePos;
if (!fXMLInitialized)
return;
XMLEnterCriticalSection();
XMLState = PXMLThreadStates[ThreadState->XMLThreadIndex];
if (XMLState->iXMLFileStart == -1) {
XMLLeaveCriticalSection();
return;
}
assert(XMLState->iXMLBufferPos == XMLState->iXMLBufferLen);
// find the thread with the smallest file position
for (i = 0; i < NumberProcesses+1; i++) {
OtherXMLState = PXMLThreadStates[i];
if (OtherXMLState->iXMLFileStart != -1 && OtherXMLState->iXMLFileStart < iMinFileStart) {
iMinFileStart = OtherXMLState->iXMLFileStart;
iMinThreadIndex = i;
}
}
if (iMinThreadIndex == ThreadState->XMLThreadIndex) {
// got lucky - this thread is the first one, so we don't need to do anything
XMLState->iXMLFileStart = -1;
XMLLeaveCriticalSection();
return;
}
// dump out all threads starting with ours - not sure if the order matters
// got the seek pos at the prev step
dwCurrentFilePos = iMinFileStart;
if (fXMLOutput) {
if (fseek(XMLFile, (long)dwCurrentFilePos, SEEK_SET) != -1) {
fwrite(XMLState->XMLBuffer, 1, XMLState->iXMLBufferLen, XMLFile);
}
}
dwCurrentFilePos += XMLState->iXMLBufferLen;
XMLState->iXMLFileStart = -1;
for (i = 0; i < NumberProcesses+1; i++) {
if (i != ThreadState->XMLThreadIndex) {
OtherXMLState = PXMLThreadStates[i];
if (OtherXMLState->iXMLFileStart != -1) {
OtherXMLState->iXMLFileStart = dwCurrentFilePos;
if (fXMLOutput) {
fwrite(OtherXMLState->XMLBuffer, 1, OtherXMLState->iXMLBufferLen, XMLFile);
}
dwCurrentFilePos += OtherXMLState->iXMLBufferLen;
}
}
}
// no need to write out the global tail because it didn't move
if (fXMLOutput) {
fflush(XMLFile);
}
XMLLeaveCriticalSection();
}
VOID
XMLThreadInitBuffer(PTHREADSTATE ThreadState)
{
PXMLTHREADSTATE XMLState;
if (!fXMLInitialized)
return;
XMLEnterCriticalSection();
XMLState = PXMLThreadStates[ThreadState->XMLThreadIndex];
if (XMLState->iXMLFileStart == -1) {
XMLState->iXMLFileStart = PXMLGlobalState->iXMLFileStart;
XMLState->iXMLBufferLen = 0;
XMLState->iXMLBufferPos = 0;
XMLState->fXMLInAction = FALSE;
}
XMLLeaveCriticalSection();
}
VOID _cdecl
XMLGlobalWrite(LPCSTR pszFmt, ...)
{
va_list va;
SIZE_T dwBufferLen;
SIZE_T dwCurrentFilePos;
UINT i;
if (!fXMLInitialized)
return;
XMLEnterCriticalSection();
for (i = 0; i < NumberProcesses+1; i++) {
if (PXMLThreadStates[i]->iXMLFileStart != -1) {
XMLLeaveCriticalSection();
return;
}
}
ZeroMemory(szXMLPrivateBuffer, sizeof(szXMLPrivateBuffer));
// build the string to write out
va_start(va, pszFmt);
_vsnprintf(szXMLPrivateBuffer, sizeof(szXMLPrivateBuffer)-1, pszFmt, va);
va_end(va);
dwBufferLen = strlen(szXMLPrivateBuffer);
// write it out
dwCurrentFilePos = PXMLGlobalState->iXMLFileStart;
if (fXMLOutput) {
if (fseek(XMLFile, (long)dwCurrentFilePos, SEEK_SET) != -1) {
fwrite(szXMLPrivateBuffer, 1, dwBufferLen, XMLFile);
}
}
dwCurrentFilePos += dwBufferLen;
// write out the global tail
if (fXMLOutput) {
fwrite(PXMLGlobalState->XMLBuffer, 1, PXMLGlobalState->iXMLBufferLen, XMLFile);
fflush(XMLFile);
}
// and update the tail position
PXMLGlobalState->iXMLFileStart += dwBufferLen;
XMLLeaveCriticalSection();
}
VOID _cdecl
XMLGlobalOpenTag(LPCSTR pszTag, LPCSTR pszFmt, ...)
{
va_list va;
SIZE_T dwBufferLen;
DWORD dwTagLen = strlen(pszTag);
SIZE_T dwCurrentFilePos;
UINT i;
if (!fXMLInitialized)
return;
XMLEnterCriticalSection();
for (i = 0; i < NumberProcesses+1; i++) {
PXMLTHREADSTATE OtherXMLState = PXMLThreadStates[i];
if (OtherXMLState->iXMLFileStart != -1) {
XMLLeaveCriticalSection();
return;
}
}
// build the string to write out
szXMLPrivateBuffer[0] = '<';
strcpy(szXMLPrivateBuffer + 1, pszTag);
if (pszFmt != NULL) {
va_start(va, pszFmt);
strcat(szXMLPrivateBuffer, " ");
vsprintf(szXMLPrivateBuffer + strlen(szXMLPrivateBuffer), pszFmt, va);
va_end(va);
}
strcat(szXMLPrivateBuffer, ">");
dwBufferLen = strlen(szXMLPrivateBuffer);
// insert the closing tag in the global tail
memmove(PXMLGlobalState->XMLBuffer + dwTagLen + 3, PXMLGlobalState->XMLBuffer, PXMLGlobalState->iXMLBufferLen+1); // include the null terminator
PXMLGlobalState->XMLBuffer[0] = '<';
PXMLGlobalState->XMLBuffer[1] = '/';
memcpy(PXMLGlobalState->XMLBuffer + 2, pszTag, dwTagLen);
PXMLGlobalState->XMLBuffer[dwTagLen + 2] = '>';
PXMLGlobalState->iXMLBufferLen += dwTagLen + 3;
// write out the string
dwCurrentFilePos = PXMLGlobalState->iXMLFileStart;
if (fXMLOutput) {
if (fseek(XMLFile, (long)dwCurrentFilePos, SEEK_SET) != -1) {
fwrite(szXMLPrivateBuffer, 1, dwBufferLen, XMLFile);
}
}
dwCurrentFilePos += dwBufferLen;
// put back the global tail
PXMLGlobalState->iXMLFileStart += dwBufferLen;
if (fXMLOutput) {
fwrite(PXMLGlobalState->XMLBuffer, 1, PXMLGlobalState->iXMLBufferLen, XMLFile);
fflush(XMLFile);
}
XMLLeaveCriticalSection();
}
VOID
XMLGlobalCloseTag()
{
char* psz;
SIZE_T dwTagLen;
if (!fXMLInitialized)
return;
XMLEnterCriticalSection();
if (PXMLGlobalState->iXMLBufferLen == 0) {
XMLLeaveCriticalSection();
return;
}
psz = PXMLGlobalState->XMLBuffer;
while (*psz != '>')
psz++;
psz++;
dwTagLen = psz - PXMLGlobalState->XMLBuffer;
memmove(PXMLGlobalState->XMLBuffer, psz, PXMLGlobalState->iXMLBufferLen - dwTagLen + 1); // include the null terminator
PXMLGlobalState->iXMLBufferLen -= dwTagLen;
PXMLGlobalState->iXMLFileStart += dwTagLen;
XMLLeaveCriticalSection();
}
VOID
XMLUpdateEndTag(BOOL fCompleted)
{
char* pszBuild;
char* pszEnd;
DWORD cbBufferLen;
time_t ltime;
if (!fXMLInitialized)
return;
XMLEnterCriticalSection();
pszBuild = strstr(PXMLGlobalState->XMLBuffer, "</BUILD>");
if (pszBuild == NULL) {
// no build tag is open yet
XMLLeaveCriticalSection();
return;
}
// remove the existing end tag
pszEnd = strstr(PXMLGlobalState->XMLBuffer, "<END ");
if (pszEnd != NULL) {
memmove(pszEnd, pszBuild, strlen(pszBuild)+1);
PXMLGlobalState->iXMLBufferLen -= (pszBuild - pszEnd);
pszBuild = pszEnd;
}
// generate the new end tag
time(&ltime);
sprintf(szXMLPrivateBuffer, "<END TIME=\"%s\" ELAPSED=\"%s\" PASSES=\"%d\" COMPLETED=\"%d\" ", ctime(&ltime), FormatElapsedTime(XMLStartTicks), NumberPasses, fCompleted);
strcat(szXMLPrivateBuffer, XMLBuildMetricsString(&RunningTotals));
strcat(szXMLPrivateBuffer, "/>");
cbBufferLen = strlen(szXMLPrivateBuffer);
// insert the new end tag into the buffer
memmove(pszBuild + cbBufferLen, pszBuild, strlen(pszBuild)+1);
memmove(pszBuild, szXMLPrivateBuffer, cbBufferLen);
PXMLGlobalState->iXMLBufferLen += cbBufferLen;
// write it out
if (fXMLOutput) {
if (fseek(XMLFile, (long)PXMLGlobalState->iXMLFileStart, SEEK_SET) != -1) {
fwrite(PXMLGlobalState->XMLBuffer, 1, PXMLGlobalState->iXMLBufferLen, XMLFile);
fflush(XMLFile);
}
}
XMLLeaveCriticalSection();
}
static char cEntity[5] = { "<&>\"'"};
static char* pszEntityEncoding[5] = {
"&lt;",
"&amp;",
"&gt;",
"&quot;",
"&apos;"
};
LPSTR
XMLEncodeBuiltInEntities(LPSTR pszString, DWORD cbStringSize)
{
DWORD cbStringLen = strlen(pszString);
char* psz = pszString;
DWORD cbExtraLen = 0;
int pos = 0;
char* pszTarget = NULL;
char* pszSource = NULL;
DWORD cbSourceLen = 0;
cbStringSize -= 1; // remove the null char
while ((pos = strcspn(psz, cEntity)) != strlen(psz)) {
cbExtraLen += strlen(pszEntityEncoding[strchr(cEntity, psz[pos])-cEntity])-1;
psz += pos+1;
}
if (cbExtraLen + cbStringLen > cbStringSize)
return NULL;
if (0 == cbExtraLen)
return pszString;
psz = pszString + cbStringSize - cbStringLen;
memmove(psz, pszString, cbStringLen+1);
pszTarget = pszString;
while ((pos = strcspn(psz, cEntity)) != strlen(psz)) {
memmove(pszTarget, psz, pos);
pszTarget += pos;
psz += pos;
pszSource = pszEntityEncoding[strchr(cEntity, *psz)-cEntity];
cbSourceLen = strlen(pszSource);
memmove(pszTarget, pszSource, cbSourceLen);
pszTarget += cbSourceLen;
psz++;
}
memmove(pszTarget, psz, pos);
pszTarget += pos;
*pszTarget = 0;
return pszString;
}
LPSTR
XMLEncodeBuiltInEntitiesCopy(LPSTR pszString, LPSTR pszTarget)
{
int pos = 0;
char* pszSource;
DWORD cbSourceLen;
char* psz = pszTarget;
while ((pos = strcspn(pszString, cEntity)) != strlen(pszString)) {
memmove(psz, pszString, pos);
psz += pos;
pszString += pos;
pszSource = pszEntityEncoding[strchr(cEntity, *pszString)-cEntity];
cbSourceLen = strlen(pszSource);
memmove(psz, pszSource, cbSourceLen);
psz += cbSourceLen;
pszString++;
}
memmove(psz, pszString, pos);
psz += pos;
*psz = 0;
return pszTarget;
}
BOOL
XMLScanBackTag(LPSTR pszEnd, LPSTR pszSentinel, LPSTR* ppszStart)
{
int nOpen = 0;
LPSTR pszClosing = NULL;
while (pszEnd != pszSentinel) {
--pszEnd;
if (*pszEnd == '>') {
pszClosing = pszEnd;
} else if (*pszEnd == '<') {
if (NULL == pszClosing) {
// found '<' before '>' - bad string
return FALSE;
}
if (*(pszEnd+1) == '/') {
if (*(pszClosing-1) == '/') {
// "</...../>" - bad string
return FALSE;
} else {
// "</....>" - closing tag
++nOpen;
}
} else {
if (*(pszClosing-1) != '/') {
// "<....>" - opening tag
--nOpen;
}
// else
// "<..../>" - neutral tag
}
if (0 == nOpen) {
*ppszStart = pszEnd;
return TRUE;
}
}
}
return FALSE;
}
LPSTR
XMLBuildMetricsString(PBUILDMETRICS Metrics)
{
static char buffer[512];
buffer[0] = 0;
if (0 != Metrics->NumberCompiles)
sprintf(buffer + strlen(buffer), "FILESCOMPILED=\"%d\" ", Metrics->NumberCompiles);
if (0 != Metrics->NumberCompileErrors)
sprintf(buffer + strlen(buffer), "COMPILEERRORS=\"%d\" ", Metrics->NumberCompileErrors);
if (0 != Metrics->NumberCompileWarnings)
sprintf(buffer + strlen(buffer), "COMPILEWARNINGS=\"%d\" ", Metrics->NumberCompileWarnings);
if (0 != Metrics->NumberLibraries)
sprintf(buffer + strlen(buffer), "LIBRARIESBUILT=\"%d\" ", Metrics->NumberLibraries);
if (0 != Metrics->NumberLibraryErrors)
sprintf(buffer + strlen(buffer), "LIBRARYERRORS=\"%d\" ", Metrics->NumberLibraryErrors);
if (0 != Metrics->NumberLibraryWarnings)
sprintf(buffer + strlen(buffer), "LIBRARYWARNINGS=\"%d\" ", Metrics->NumberLibraryWarnings);
if (0 != Metrics->NumberLinks)
sprintf(buffer + strlen(buffer), "EXECUTABLESBUILT=\"%d\" ", Metrics->NumberLinks);
if (0 != Metrics->NumberLinkErrors)
sprintf(buffer + strlen(buffer), "LINKERRORS=\"%d\" ", Metrics->NumberLinkErrors);
if (0 != Metrics->NumberLinkWarnings)
sprintf(buffer + strlen(buffer), "LINKWARNINGS=\"%d\" ", Metrics->NumberLinkWarnings);
if (0 != Metrics->NumberBSCMakes)
sprintf(buffer + strlen(buffer), "BROWSERDBS=\"%d\" ", Metrics->NumberBSCMakes);
if (0 != Metrics->NumberBSCErrors)
sprintf(buffer + strlen(buffer), "BSCERRORS=\"%d\" ", Metrics->NumberBSCErrors);
if (0 != Metrics->NumberBSCWarnings)
sprintf(buffer + strlen(buffer), "BSCWARNINGS=\"%d\" ", Metrics->NumberBSCWarnings);
if (0 != Metrics->NumberVSToolErrors)
sprintf(buffer + strlen(buffer), "VSTOOLERRORS=\"%d\" ", Metrics->NumberVSToolErrors);
if (0 != Metrics->NumberVSToolWarnings)
sprintf(buffer + strlen(buffer), "VSTOOLWARNINGS=\"%d\" ", Metrics->NumberVSToolWarnings);
return buffer;
}
VOID _cdecl
XMLWriteFragmentFile(LPCSTR pszBaseFileName, LPCSTR pszFmt, ...)
{
va_list va;
FILE* PFile;
char szFileName[DB_MAX_PATH_LENGTH];
sprintf(szFileName, "%s\\%s_%s.xml", XMLFragmentDirectory, FormatCurrentDateTime(), pszBaseFileName);
XMLEnterCriticalSection();
va_start(va, pszFmt);
vsprintf(szXMLPrivateBuffer, pszFmt, va);
va_end(va);
PFile = fopen(szFileName, "wb");
if (PFile) {
fwrite(szXMLPrivateBuffer, 1, strlen(szXMLPrivateBuffer), PFile);
fclose(PFile);
}
XMLLeaveCriticalSection();
}
VOID _cdecl
XMLWriteDirFragmentFile(LPCSTR pszRelPath, PVOID pvBlock, SIZE_T cbCount)
{
FILE* PFile;
char* psz;
char szFileName[DB_MAX_PATH_LENGTH];
sprintf(szFileName, "%s\\%s_DIR_%s", XMLFragmentDirectory, FormatCurrentDateTime(), pszRelPath);
psz = szFileName+strlen(szFileName)-1;
if (*psz == '\\') {
*psz = 0;
}
strcat(szFileName, ".xml");
psz = szFileName+strlen(XMLFragmentDirectory)+1;
while (*psz) {
if (*psz == '\\') {
*psz = '_';
}
++psz;
}
PFile = fopen(szFileName, "wb");
if (PFile) {
fwrite(pvBlock, 1, cbCount, PFile);
fclose(PFile);
}
}
VOID
AddBuildMetrics(PBUILDMETRICS TargetMetrics, PBUILDMETRICS SourceMetrics)
{
TargetMetrics->NumberCompileWarnings += SourceMetrics->NumberCompileWarnings;
TargetMetrics->NumberCompileErrors += SourceMetrics->NumberCompileErrors;
TargetMetrics->NumberCompiles += SourceMetrics->NumberCompiles;
TargetMetrics->NumberLibraries += SourceMetrics->NumberLibraries;
TargetMetrics->NumberLibraryWarnings += SourceMetrics->NumberLibraryWarnings;
TargetMetrics->NumberLibraryErrors += SourceMetrics->NumberLibraryErrors;
TargetMetrics->NumberLinks += SourceMetrics->NumberLinks;
TargetMetrics->NumberLinkWarnings += SourceMetrics->NumberLinkWarnings;
TargetMetrics->NumberLinkErrors += SourceMetrics->NumberLinkErrors;
TargetMetrics->NumberBSCMakes += SourceMetrics->NumberBSCMakes;
TargetMetrics->NumberBSCWarnings += SourceMetrics->NumberBSCWarnings;
TargetMetrics->NumberBSCErrors += SourceMetrics->NumberBSCErrors;
TargetMetrics->NumberVSToolErrors += SourceMetrics->NumberVSToolErrors;
TargetMetrics->NumberVSToolWarnings += SourceMetrics->NumberVSToolWarnings;
TargetMetrics->NumberDirActions += SourceMetrics->NumberDirActions;
TargetMetrics->NumberActWarnings += SourceMetrics->NumberActWarnings;
TargetMetrics->NumberActErrors += SourceMetrics->NumberActErrors;
}
VOID
XMLEnterCriticalSection()
{
if (fXMLInitialized) {
EnterCriticalSection(&XMLCriticalSection);
}
}
VOID
XMLLeaveCriticalSection()
{
if (fXMLInitialized) {
LeaveCriticalSection(&XMLCriticalSection);
}
}