/********************************************************************/ /** Microsoft NT printing - separator pages **/ /********************************************************************/ #include #pragma hdrstop #define _CTYPE_DISABLE_MACROS #include #include /* this is max. no. of chars to be printed on a line */ /* these numbers must be taken from somewhere else */ #define MAXLINE 256 #define DEFAULT_LINE_WIDTH 80 #define BLOCK_CHAR_HEIGHT 16 #define BLOCK_CHAR_WIDTH 8 #define BLOCK_CHAR_DWIDTH 16 #define NORMAL_MODE 'U' #define BLOCK_START 'B' #define SINGLE_WIDTH 'S' #define DOUBLE_WIDTH 'M' #define TEXT_MODE 'L' #define WIDTH_CHANGE 'W' #define END_PAGE 'E' #define FILE_INSERT 'F' #define USER_NAME 'N' #define JOB_ID 'I' #define DATE_INSERT 'D' #define TIME_INSERT 'T' #define HEX_CODE 'H' /* global structure (instance data) */ typedef struct { PSPOOL pSpool; HANDLE hFile; HANDLE hFileMapping; DWORD dwFileCount; DWORD dwFileSizeLo; DWORD cbOutBufLength; DWORD cbLineLength; DWORD linewidth; char *OutBuf; char *pOutBufPos; char *pNextFileChar; char *pFileStart; char mode; char cEsc; char cLastChar; // Used to store DBCS lead byte. HDC hDCMem; // Used to create Kanji banner char. HFONT hFont; // Used to create Kanji banner char. HBITMAP hBitmap; // Used to create Kanji banner char. PVOID pvBits; // Used to create Kanji nanner char. } GLOBAL_SEP_DATA; /* static variables */ static char *szDefaultSep = "@@B@S@N@4 @B@S@I@4 @U@L @D@1 @E"; static char *sznewline = "\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n\r\n"; static LPWSTR szDefaultSepName = L"DEFAULT.SEP"; /* Forward declarations */ int OpenSepFile(GLOBAL_SEP_DATA *, LPWSTR); int CloseSepFile(GLOBAL_SEP_DATA *); int ReadSepChar(GLOBAL_SEP_DATA *); void UngetSepChar(GLOBAL_SEP_DATA *, int); int WriteSepBuf(GLOBAL_SEP_DATA *, char *, DWORD); int DoSeparatorPage(GLOBAL_SEP_DATA *); int AddNormalChar(GLOBAL_SEP_DATA *, int); int AddBlockChar(GLOBAL_SEP_DATA *, int); int FlushOutBuf(GLOBAL_SEP_DATA *); int FlushNewLine(GLOBAL_SEP_DATA *); void ReadFileName(GLOBAL_SEP_DATA *, char *, DWORD); int ConvertAtoH(int); void ConvertTimetoChar(LPSYSTEMTIME,char *); void ConvertDatetoChar(LPSYSTEMTIME,char *); /**************************************************************\ ** DoSeparator(pSpool) ** This function is called by the spooler. It is the ** entry point for the separator page code. It opens the ** separator page file, processes it, sends the output ** directly to the printer, and then returns control ** to the spooler. ** ** RETURN VALUE: 1 = OK, 0 = error \**************************************************************/ int DoSeparator( PSPOOL pSpool ) { GLOBAL_SEP_DATA g; int status; g.pSpool = pSpool; if (!OpenSepFile(&g, pSpool->pIniJob->pIniPrinter->pSepFile)) { return(0); } // // We used to call OpenProfileUserMapping() and CloseProfileUserMapping() // before and after DoSeparatorPage. But they are not multi thread safe // and are not needed now that we use SystemTimeToTzSpecificLocalTime // instead of GetProfileInt etc.. // status = DoSeparatorPage(&g); CloseSepFile(&g); if (!status) { return(0); } return(1); } /**************************************************************\ ** OpenSepFile(pg, szFileName) ** open file for input. ** at the moment, this does nothing--stdin and stdout are used \**************************************************************/ int OpenSepFile( GLOBAL_SEP_DATA *pg, LPWSTR szFileName ) { if (!lstrcmpi(szFileName, szDefaultSepName)) { /* if szFileName is empty, just use default separator page string */ pg->hFile = NULL; pg->hFileMapping = NULL; pg->pFileStart = pg->pNextFileChar = szDefaultSep; pg->dwFileSizeLo = strlen(szDefaultSep); } else { HANDLE hImpersonationToken = RevertToPrinterSelf(); /* otherwise, open the file */ pg->hFile = CreateFile(szFileName, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, FILE_FLAG_SEQUENTIAL_SCAN, NULL); ImpersonatePrinterClient(hImpersonationToken); if (pg->hFile==INVALID_HANDLE_VALUE) { return(0); } pg->dwFileSizeLo = GetFileSize(pg->hFile, NULL); /* assume < 4 GB! */ pg->hFileMapping = CreateFileMapping(pg->hFile, NULL, PAGE_READONLY, 0, 0, NULL); if (!pg->hFileMapping || pg->dwFileSizeLo==-1) { CloseSepFile(pg); return(0); } pg->pFileStart = pg->pNextFileChar = (char *) MapViewOfFile(pg->hFileMapping, FILE_MAP_READ, 0, 0, pg->dwFileSizeLo); if (!pg->pFileStart) { CloseSepFile(pg); return(0); } } /* end of else (szFileName non-NULL) */ pg->dwFileCount = 0; /* now, allocate local buffer for output */ pg->OutBuf = (char *)AllocSplMem( BLOCK_CHAR_HEIGHT*(MAXLINE+2) ); if (!pg->OutBuf) { CloseSepFile(pg); return(0); } return(1); } /**************************************************************\ ** CloseSepFile(pg) ** close files. \**************************************************************/ int CloseSepFile(GLOBAL_SEP_DATA *pg) { if (pg->OutBuf) { FreeSplMem(pg->OutBuf); } if (pg->hFileMapping) { if (pg->pFileStart) { UnmapViewOfFile(pg->pFileStart); } CloseHandle(pg->hFileMapping); } if (pg->hFile) { CloseHandle(pg->hFile); } return(1); } /**************************************************************\ ** ReadSepChar(pg) ** reads a character from the separator file and returns it \**************************************************************/ int ReadSepChar(GLOBAL_SEP_DATA *pg) { if (pg->dwFileCount >= pg->dwFileSizeLo) { return(EOF); } pg->dwFileCount++; return(*pg->pNextFileChar++); } /**************************************************************\ ** UngetSepChar(pg, c) ** ungets a character to the separator file \**************************************************************/ void UngetSepChar( GLOBAL_SEP_DATA *pg, int c ) { if (c != EOF && pg->dwFileCount) { pg->dwFileCount--; pg->pNextFileChar--; } } /**************************************************************\ ** WriteSepBuf(pg, str, cb) ** write cb bytes of a string to the printer \**************************************************************/ int WriteSepBuf( GLOBAL_SEP_DATA *pg, char *str, DWORD cb ) { DWORD cbWritten; return(LocalWritePrinter(pg->pSpool, str, cb, &cbWritten) && (cbWritten==cb) ); #ifdef ALIP if (str[cb]) { char temp[3000]; strncpy(temp, str, cb); temp[cb]=0; return(!fputs(temp,stdout)); } return(!fputs(str,stdout)); #endif } /**************************************************************\ ** FlushOutBuf(pg) ** flush the output buffer (block or line mode) ** WHAT'S TRICKY HERE IS THAT IF WE'RE IN LINE MODE, WE SIMPLY ** WRITE THE STUFF TO THE FILE, WHEREAS IF WE'RE IN BLOCK ** CHARACTER MODE, WE FORCE CARRIAGE-RETURN / LINEFEEDS ON ** EACH OF THE EIGHT BUFFERED LINES THAT MAKE UP THE BLOCK ** CHARACTERS; i.e., FlushOutBuf() SERVES AS AN EOL IN BLOCK ** MODE, BUT NOT IN LINE MODE. ** ** - return TRUE means ok ** - return FALSE means problem \**************************************************************/ int FlushOutBuf(GLOBAL_SEP_DATA *pg) { int i,status = TRUE; char *pBlkLine; if (!pg->cbOutBufLength) { return(TRUE); } if (pg->mode == NORMAL_MODE) { /* write out entire buffer at once */ status = WriteSepBuf(pg, pg->OutBuf, pg->cbOutBufLength); } else { /* BLOCK MODE: * force carriage-return and linefeed on all eight lines */ pBlkLine = pg->OutBuf; for (i=0; (i < BLOCK_CHAR_HEIGHT) && status; i++) { *pg->pOutBufPos = '\r'; *(pg->pOutBufPos+1) = '\n'; status = WriteSepBuf(pg, pBlkLine, pg->cbLineLength+2); pg->pOutBufPos += MAXLINE+2; pBlkLine += MAXLINE+2; } pg->cbLineLength = 0; } pg->pOutBufPos = pg->OutBuf; pg->cbOutBufLength = 0; return(status); } /**************************************************************\ ** FlushNewLine(pg) ** Starts a new line: if BLOCK MODE, just do FlushOutBuf(); ** if not, send a '\r' '\n' combination, then flush. ** - return TRUE means ok ** - return FALSE means problem \**************************************************************/ int FlushNewLine(GLOBAL_SEP_DATA *pg) { if (pg->mode==NORMAL_MODE && pg->cbLineLength) { if (!AddNormalChar(pg,'\r')) return(FALSE); if (!AddNormalChar(pg,'\n')) return(FALSE); } return(FlushOutBuf(pg)); } /**************************************************************\ ** AddNormalChar(pg, c) ** add a character to the output buffer (not block mode) ** - return TRUE means ok ** - return FALSE means problem \**************************************************************/ int AddNormalChar( GLOBAL_SEP_DATA *pg, int c ) { if (c=='\n') { /* reset line length count */ pg->cbLineLength = 0; } else { if (isprint(c) && (++(pg->cbLineLength) > pg->linewidth)) { return(TRUE); } } *pg->pOutBufPos++ = (CHAR) c; if (++(pg->cbOutBufLength) == BLOCK_CHAR_HEIGHT*(MAXLINE+2)) { return(FlushOutBuf(pg)); } return(TRUE); } /* end of AddNormalChar() */ /**************************************************************\ ** AddBlockChar(pg, c) ** add a character to the output buffer (block mode) ** return TRUE means ok ** return FALSE means problem \**************************************************************/ int AddBlockChar( GLOBAL_SEP_DATA *pg, int c ) { int w; register int i,k; register char *p; unsigned char cBits, *pcBits; char cBlkFill; register int j; unsigned char *pcBitsLine; HBITMAP hBitmapOld; HFONT hFontOld; CHAR aTextBuf[2]; SHORT sTextIndex = 0; ULONG cjBitmap; ULONG cjWidth = BLOCK_CHAR_WIDTH; #define CJ_DIB16_SCAN(cx) ((((cx) + 15) & ~15) >> 3) #define CJ_DIB16( cx, cy ) (CJ_DIB16_SCAN(cx) * (cy)) if( pg->cLastChar == (CHAR)NULL && IsDBCSLeadByte((CHAR)c) ) { pg->cLastChar = (CHAR) c; return(TRUE); } if(pg->hDCMem == NULL) { pg->hDCMem = CreateCompatibleDC(NULL); if (pg->hDCMem == NULL) { // // Only happens when memory is exhausted. Functionality may suffer // but we won't AV. // return FALSE; } } if(pg->hBitmap == NULL) { pg->hBitmap = CreateCompatibleBitmap(pg->hDCMem,BLOCK_CHAR_DWIDTH,BLOCK_CHAR_HEIGHT); if ( pg->hBitmap == NULL ) { // // Only happens when memory is exhausted. Functionality may suffer // but we won't AV. // return FALSE; } } if(pg->pvBits == NULL) { pg->pvBits = AllocSplMem(CJ_DIB16(BLOCK_CHAR_DWIDTH,BLOCK_CHAR_HEIGHT)); if ( pg->pvBits == NULL ) { // // Only happens when memory is exhausted. Functionality may suffer // but we won't AV. // return FALSE; } } if(pg->hFont == NULL) { LOGFONT lf; RtlZeroMemory(&lf,sizeof(LOGFONT)); lf.lfHeight = BLOCK_CHAR_HEIGHT; lf.lfWidth = ( pg->mode == DOUBLE_WIDTH ) ? BLOCK_CHAR_DWIDTH : BLOCK_CHAR_WIDTH; lf.lfWeight = FW_NORMAL; lf.lfPitchAndFamily = FIXED_PITCH | FF_MODERN; lf.lfCharSet = DEFAULT_CHARSET; pg->hFont = CreateFontIndirect(&lf); } hBitmapOld = SelectObject(pg->hDCMem,pg->hBitmap); hFontOld = SelectObject(pg->hDCMem,pg->hFont); if( pg->cLastChar != (CHAR) NULL ) { aTextBuf[sTextIndex] = pg->cLastChar; sTextIndex ++; cjWidth = BLOCK_CHAR_DWIDTH; } aTextBuf[sTextIndex] = (CHAR) c; PatBlt(pg->hDCMem,0,0,BLOCK_CHAR_DWIDTH,BLOCK_CHAR_HEIGHT,WHITENESS); TextOutA(pg->hDCMem,0,0,aTextBuf,sTextIndex+1); GetBitmapBits(pg->hBitmap,CJ_DIB16(cjWidth,BLOCK_CHAR_HEIGHT),pg->pvBits); SelectObject(pg->hDCMem,hBitmapOld); SelectObject(pg->hDCMem,hFontOld); w = (pg->mode==DOUBLE_WIDTH)? cjWidth * 2 : cjWidth; if (pg->cbLineLength+w > pg->linewidth) { return(TRUE); } cBlkFill = '#'; pcBitsLine = (unsigned char *) pg->pvBits; for (i = 0 ; i < BLOCK_CHAR_HEIGHT; i++, pcBitsLine += CJ_DIB16_SCAN(BLOCK_CHAR_DWIDTH)) { /* put block character into buffer line by line, top first */ pcBits = pcBitsLine; p = pg->pOutBufPos + i * (MAXLINE+2); cBits = *pcBits; j = 0; for (k = cjWidth; k--; ) { if (pg->mode==DOUBLE_WIDTH) { *p = *(p+1) = (cBits & 0x80)? ' ' : cBlkFill; p += 2; } else { *p++ = (cBits & 0x80)? ' ' : cBlkFill; } cBits <<= 1; j++; if( j==8 ) { pcBits++; cBits = *pcBits; j = 0; } } } /* end of loop through lines of block char */ pg->cLastChar = (CHAR) NULL; pg->pOutBufPos += w; pg->cbLineLength += w; pg->cbOutBufLength += w; return(TRUE); } /* end of AddBlockChar() */ /**************************************************************\ ** DoSeparatorPage(pg) ** this is the actual processing \**************************************************************/ int DoSeparatorPage(GLOBAL_SEP_DATA *pg) { int status = TRUE; int c; char *pchar; WCHAR *pwchar; char tempbuf[MAX_PATH]; /* assume length of date, time, or job_id < MAXPATH */ int (*AddCharFxn)() = AddNormalChar; if ((c = ReadSepChar(pg))==EOF) { return(TRUE); } pg->linewidth = DEFAULT_LINE_WIDTH; pg->cEsc = (CHAR) c; pg->pOutBufPos = pg->OutBuf; pg->cbOutBufLength = 0; pg->cbLineLength = 0; pg->mode = NORMAL_MODE; pg->hDCMem = (HDC) NULL; pg->hFont = (HFONT) NULL; pg->hBitmap = (HBITMAP) NULL; pg->cLastChar = (CHAR) NULL; pg->pvBits = (PVOID) NULL; while (status && ((c=ReadSepChar(pg))!=EOF) ) { /* find the next escape sequence */ if (c != pg->cEsc) continue; /* found an escape character: now, check the next character */ if ((c=ReadSepChar(pg))==EOF) { break; } switch (c) { case TEXT_MODE: if (pg->mode==NORMAL_MODE) { while (status && ((c=ReadSepChar(pg)) != EOF)) { if (c!=pg->cEsc) { status = AddNormalChar(pg, c); } else { /* This is to treat as a normal char */ c = ReadSepChar(pg); if (c==pg->cEsc) { status = AddNormalChar(pg, c); } else { UngetSepChar(pg, c); UngetSepChar(pg, pg->cEsc); break; /* breaks from the while, returns to main loop */ } } } } /* end of NORMAL_MODE processing */ else { while (status && ((c=ReadSepChar(pg))!=EOF)) { if (c=='\n') { status = FlushOutBuf(pg); } else if (c=='\r') { /* if followed by '\n', ignore. * Otherwise, AddBlockChar() the '\r'. */ c = ReadSepChar(pg); if (c!='\n') { status = AddBlockChar(pg, '\r'); } UngetSepChar(pg, c); } else { if (c==pg->cEsc) { /* This is to treat as a normal char */ c = ReadSepChar(pg); if (c==pg->cEsc) { status = AddBlockChar(pg, c); } else { UngetSepChar(pg, c); UngetSepChar(pg, pg->cEsc); break; /* breaks from the while, returns to main loop */ } } else { status = AddBlockChar(pg, c); } } } } /* end of BLOCK mode processing */ break; case BLOCK_START: case SINGLE_WIDTH: case DOUBLE_WIDTH: case NORMAL_MODE: status = FlushNewLine(pg); pg->mode = (CHAR) c; AddCharFxn = (pg->mode==NORMAL_MODE)? AddNormalChar : AddBlockChar; break; case USER_NAME: pwchar = pg->pSpool->pIniJob->pUser; if (pwchar) { char *pchar; UNICODE_STRING UnicodeString; ANSI_STRING AnsiString; RtlInitUnicodeString(&UnicodeString,pwchar); RtlUnicodeStringToAnsiString(&AnsiString,&UnicodeString,TRUE); pchar = AnsiString.Buffer; if ( pchar ) { while (*pchar && status) status = (*AddCharFxn)(pg, *pchar++); } RtlFreeAnsiString(&AnsiString); } break; case DATE_INSERT: ConvertDatetoChar(&pg->pSpool->pIniJob->Submitted, tempbuf); pchar = tempbuf; while (*pchar && status) status = (*AddCharFxn)(pg, *pchar++); break; case TIME_INSERT: ConvertTimetoChar(&pg->pSpool->pIniJob->Submitted, tempbuf); pchar = tempbuf; while (*pchar && status) status = (*AddCharFxn)(pg, *pchar++); break; case JOB_ID: _itoa(pg->pSpool->pIniJob->JobId, tempbuf, 10); pchar = tempbuf; while (*pchar && status) status = (*AddCharFxn)(pg, *pchar++); break; case HEX_CODE: /* print a control character--read the hexadecimal code */ c = ReadSepChar(pg); if (isxdigit(c)) { int c2 = ReadSepChar(pg); if (isxdigit(c2)) { c = (char)((ConvertAtoH(c) << 4) + ConvertAtoH(c2)); status = (*AddCharFxn)(pg, c); } else { UngetSepChar(pg, c2); /* perhaps shouldn't do this? If they say @Hxx, * implying xx is a hexadecimal code, and the second * x is not a hex digit, should we leave that char * on the input line to be interpreted next, or should * we skip it? This only matters if it was an escape char, * i.e. @Hx@.... Right now, the second @ is considered * the start of a new command, and the @Hx is ignored * entirely. The same applies for the UngetSepChar() below. */ } } else { UngetSepChar(pg, c); } break; case WIDTH_CHANGE: { /* read the decimal number; change line width if reasonable */ int new_width = 0; for (c = ReadSepChar(pg); isdigit(c); c = ReadSepChar(pg)) { new_width = 10 * new_width + c - '0'; } UngetSepChar(pg, c); if (new_width <= MAXLINE) { pg->linewidth = new_width; } else { pg->linewidth = MAXLINE; } break; } case '9': case '8': case '7': case '6': case '5': case '4': case '3': case '2': case '1': case '0': if (pg->mode==NORMAL_MODE) { status = AddNormalChar(pg,'\n'); } if (status) status = FlushOutBuf(pg); if (status) status = WriteSepBuf(pg, sznewline, 2*(c-'0')); break; case END_PAGE: /* this just outputs a formfeed character */ status = FlushNewLine(pg); if (status) status = WriteSepBuf(pg, "\f",1); break; case FILE_INSERT: { HANDLE hFile2, hMapping2; DWORD dwSizeLo2; char *pFirstChar; HANDLE hImpersonationToken; if (!(status = FlushNewLine(pg))) { break; } ReadFileName(pg, tempbuf, sizeof(tempbuf)); hImpersonationToken = RevertToPrinterSelf(); hFile2 = CreateFileA(tempbuf, GENERIC_READ, FILE_SHARE_READ, NULL, OPEN_EXISTING, FILE_FLAG_SEQUENTIAL_SCAN, NULL); ImpersonatePrinterClient(hImpersonationToken); if (hFile2 != INVALID_HANDLE_VALUE) { dwSizeLo2 = GetFileSize(hFile2, NULL); /* assume < 4 gigabytes! */ hMapping2 = CreateFileMapping(hFile2,NULL,PAGE_READONLY,0,0,NULL); if (hMapping2 && (dwSizeLo2 > 0)) { pFirstChar = (char *) MapViewOfFile(hMapping2, FILE_MAP_READ, 0, 0, dwSizeLo2); if (pFirstChar) { status = WriteSepBuf(pg, pFirstChar, dwSizeLo2); UnmapViewOfFile(pFirstChar); } CloseHandle(hMapping2); } CloseHandle(hFile2); } /* NOTE: if couldn't open file, or error while reading file, * status is NOT set to false. We will simply stop the file * insert operation, and continue processing the rest of the * the separator page as before. */ else { DBGMSG(DBG_WARNING, ("SEPARATOR PAGE: Could not open file %s \n",tempbuf)); } break; } default: break; } } /* end of main while loop...find next escape sequence, process */ if (status) status = FlushOutBuf(pg); if (pg->hDCMem != (HDC) NULL) DeleteDC(pg->hDCMem); if (pg->hFont != (HFONT) NULL) DeleteObject(pg->hFont); if (pg->hBitmap != (HBITMAP) NULL) DeleteObject(pg->hBitmap); if (pg->pvBits != (PVOID) NULL) FreeSplMem(pg->pvBits); return(status); } /* end of DoSeparatorPage() */ /**************************************************************\ ** ConvertAtoH(c) ** Converts an ASCII character to hexadecimal. \**************************************************************/ int ConvertAtoH(int c) { return( c - (isdigit(c)? '0' : ((isupper(c)? 'A':'a') - 10))); } /**************************************************************\ ** ConvertTimetoChar() ** converts system time to a string (internationalized). \**************************************************************/ void ConvertTimetoChar( SYSTEMTIME *pSystemTime, char *string ) { SYSTEMTIME LocalTime; LCID lcid; // Convert to local time SystemTimeToTzSpecificLocalTime(NULL, pSystemTime, &LocalTime); // Get lcid of local machine lcid=GetSystemDefaultLCID(); // Convert to string, , using default format for that locale GetTimeFormatA(lcid, 0, &LocalTime, NULL, string, MAX_PATH-1); } /**************************************************************\ ** ConvertDatetoChar() ** converts system date to a string (internationalized). \**************************************************************/ void ConvertDatetoChar( SYSTEMTIME *pSystemTime, char *string ) { SYSTEMTIME LocalTime; LCID lcid; // Convert to local time SystemTimeToTzSpecificLocalTime(NULL, pSystemTime, &LocalTime); // Get lcid of local machine lcid = GetSystemDefaultLCID(); // Convert to string, using default format for that locale GetDateFormatA(lcid, 0, &LocalTime, NULL, string, MAX_PATH-1); } /**************************************************************\ ** ReadFileName(pg, szfilename, dwbufsize) ** parses a filename from the separator file (following F). ** the following scheme is used: ** ** - read until a single escape, EOF, newline, or carriage return ** is encountered. Put this string into a temporary buffer, ** passed by the calling function. ** ** - if string begins with a double quote, skip this double quote, ** and consider the double quote character as an end of string ** marker, just like the newline. Thus, @F"myfile ** will be read as @Fmyfile ** \**************************************************************/ void ReadFileName( GLOBAL_SEP_DATA *pg, char *szfilename, DWORD dwbufsize ) { char *pchar = szfilename; char c; DWORD dwcount = 0; BOOL bNotQuote = TRUE; if ((pg->dwFileCount < pg->dwFileSizeLo) && (*pg->pNextFileChar=='\"')) { pg->dwFileCount++; pg->pNextFileChar++; bNotQuote = FALSE; } while ((dwcount < dwbufsize - 1) && (pg->dwFileCount < pg->dwFileSizeLo) && (c=*pg->pNextFileChar)!='\n' && c!='\r' && (bNotQuote || c!='\"')) { if (c!=pg->cEsc) { *pchar++ = c; dwcount++; pg->pNextFileChar++; pg->dwFileCount++; } else { if ((pg->dwFileCount+1) < pg->dwFileSizeLo && *(pg->pNextFileChar+1)==pg->cEsc) { *pchar++ = pg->cEsc; dwcount++; pg->pNextFileChar+=2; pg->dwFileCount+=2; } else { break; } } } /* end of loop to read characters */ *pchar = '\0'; } /* end of ReadFileName() */