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593 lines
17 KiB
593 lines
17 KiB
/*++
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Copyright (c) 1989-91 Microsoft Corporation
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Module Name:
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gettoken.c
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Abstract:
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The GetToken() function, which takes a pathname splits it into
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individual tokens. This function is a lexical analyzer which
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is called by the parsing routines of NetpPathType.
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Author:
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Danny Glasser (dannygl) 19 June 1989
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Notes:
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For efficiency, there is code here which is different for the
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DBCS and non-DBCS environments. This allows us to take advantage
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of short cuts which are not valid in the DBCS world (such as
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scanning a string from right to left).
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See the comments below for a detailed description of the behavior
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of this function.
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Revision History:
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27-Sep-1991 JohnRo
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Changed TEXT macro usage to allow UNICODE.
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06 May 1991 rfirth
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32-bit version
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--*/
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#include "nticanon.h"
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#include "winnls.h"
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#define TEXT_LENGTH(s) ((sizeof(s)/sizeof(TCHAR)) - 1)
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static TCHAR szAUXName[] = TEXT("AUX");
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static TCHAR szCOMMName[] = TEXT("COMM");
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static TCHAR szCONName[] = TEXT("CON");
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static TCHAR szDEVName[] = TEXT("DEV");
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static TCHAR szMAILSLOTName[] = TEXT("MAILSLOT");
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static TCHAR szNULName[] = TEXT("NUL");
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static TCHAR szPIPEName[] = TEXT("PIPE");
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static TCHAR szPRINTName[] = TEXT("PRINT");
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static TCHAR szPRNName[] = TEXT("PRN");
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static TCHAR szQUEUESName[] = TEXT("QUEUES");
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static TCHAR szSEMName[] = TEXT("SEM");
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static TCHAR szSHAREMEMName[] = TEXT("SHAREMEM");
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static TCHAR szLPTName[] = TEXT("LPT");
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static TCHAR szCOMName[] = TEXT("COM");
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#define LPT_TOKEN_LEN TEXT_LENGTH(szLPTName)
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#define COM_TOKEN_LEN TEXT_LENGTH(szCOMName)
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static TCHAR szWildcards[] = TEXT("*?");
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static TCHAR szIllegalChars[] = ILLEGAL_CHARS;
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static TCHAR szNonComponentChars[] = NON_COMPONENT_CHARS ILLEGAL_CHARS;
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static TCHAR _text_SingleDot[] = TEXT(".");
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typedef struct {
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LPTSTR pszTokenName;
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DWORD cbTokenLen;
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DWORD flTokenType;
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} STRING_TOKEN;
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//
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// IMPORTANT: In order for the binary table traversal to work, the strings
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// in this table MUST be in lexically-sorted order. Please
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// bear this in mind when adding strings to the table.
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//
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STATIC STRING_TOKEN StringTokenTable[] = {
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szDEVName, TEXT_LENGTH(szDEVName), TOKEN_TYPE_DEV
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};
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#define NUM_STRING_TOKENS (sizeof(StringTokenTable) / sizeof(*StringTokenTable))
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STATIC DWORD TrailingDotsAndSpaces(LPTSTR pszToken, DWORD cbTokenLen );
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STATIC BOOL IsIllegalCharacter(LPTSTR pszString);
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DWORD
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GetToken(
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IN LPTSTR pszBegin,
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OUT LPTSTR* ppszEnd,
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OUT LPDWORD pflTokenType,
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IN DWORD flFlags
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)
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/*++
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Routine Description:
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GetToken attempts to locate and type the next token. It takes the
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beginning of the token and determines the end of the token (i.e.
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the beginning of the next token, so that it can be called again).
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It also sets the TOKEN_TYPE_* bits for all of the token types which
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are appropriate to the specified type.
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Arguments:
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pszBegin - A pointer to the first character in the token.
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ppszEnd - A pointer to the location in which to store the end of
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the current token (actually, the first character of the
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next token).
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pflTokenType- The place to store the token type. Token types are
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defined in TOKEN.H.
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flFlags - Flags to determine operation. Currently MBZ.
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Return Value:
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DWORD
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Success - 0
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Failure - ERROR_INVALID_PARAMETER
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ERROR_INVALID_NAME
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ERROR_FILENAME_EXCED_RANGE
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--*/
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{
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register TCHAR chFirstChar;
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register DWORD cbTokenLen;
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BOOL fComputernameOnly = FALSE;
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DWORD usNameError = 0;
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DWORD cbTrailingDotSpace;
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DWORD iLow, iHigh, iMid;
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LONG iCmpVal;
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LCID lcid = GetThreadLocale();
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BOOL bDBCS = (PRIMARYLANGID( LANGIDFROMLCID(lcid)) == LANG_JAPANESE) ||
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(PRIMARYLANGID(LANGIDFROMLCID(lcid)) == LANG_KOREAN) ||
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(PRIMARYLANGID(LANGIDFROMLCID(lcid)) == LANG_CHINESE);
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extern DWORD cbMaxPathCompLen;
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//
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// This macro is used to make sure that the error value is set only
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// once in the computername-only case.
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//
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#define SET_COMPUTERNAMEONLY(err) if (! fComputernameOnly) \
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{ \
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fComputernameOnly = TRUE; \
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usNameError = err; \
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}
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if (flFlags & GTF_RESERVED) {
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return ERROR_INVALID_PARAMETER;
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}
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//
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// Initialize the token type to 0
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//
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*pflTokenType = 0;
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//
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// Store the first character
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//
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chFirstChar = *pszBegin;
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//
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// Return immediately if the string is a null string
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//
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if (chFirstChar == TCHAR_EOS) {
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*ppszEnd = pszBegin;
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*pflTokenType = TOKEN_TYPE_EOS;
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#ifdef DEVDEBUG
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DbgPrint("GetToken - returning TOKEN_TYPE_EOS\n");
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#endif
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return 0;
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}
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//
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// Handle single-character, non-component tokens
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//
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if ((chFirstChar == TCHAR_BACKSLASH) || (chFirstChar == TCHAR_FWDSLASH)) {
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*pflTokenType = TOKEN_TYPE_SLASH;
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} else if (chFirstChar == TCHAR_COLON) {
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*pflTokenType = TOKEN_TYPE_COLON;
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}
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//
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// If we get here and the token type is non-zero, we have a single
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// character token. We set <ppszEnd> and return 0.
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//
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if (*pflTokenType) {
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*ppszEnd = pszBegin + 1;
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#ifdef DEVDEBUG
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DbgPrint("GetToken - *pflTokenType=%x\n", *pflTokenType);
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#endif
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return 0;
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}
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//
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// If we get here, the token is a component, find the end of the
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// component by looking for the first character in the string which
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// isn't a valid component character.
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//
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// IMPORTANT: There are certain names which are not valid component
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// names but which may be valid computernames. If we hit
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// such a name, we set the <fComputernameOnly> flag. Later
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// on, we check to see if the name is a valid computername.
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// If it is, we allow it; otherwise, we return an error.
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//
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cbTokenLen = STRCSPN(pszBegin, szNonComponentChars);
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//
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// We return an error if the first character is not a valid component
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// character, if the component is too long, or if the first
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// non-component character in the string is an illegal character.
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//
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if (cbTokenLen == 0) {
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#ifdef DEVDEBUG
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DbgPrint("GetToken - returning ERROR_INVALID_NAME (token len = 0)\n");
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#endif
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return ERROR_INVALID_NAME;
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}
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if (cbTokenLen > cbMaxPathCompLen) {
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SET_COMPUTERNAMEONLY(ERROR_FILENAME_EXCED_RANGE);
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}
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if (IsIllegalCharacter(pszBegin + cbTokenLen)) {
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#ifdef DEVDEBUG
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DbgPrint("GetToken - returning ERROR_INVALID_NAME (illegal char)\n");
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#endif
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return ERROR_INVALID_NAME;
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}
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//
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// Now we need to determine where the trailing dots and spaces begin,
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// and make sure that the component name contains something other
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// than dots and spaces, unless it's "." or ".."
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//
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// NOTE: If there are not trailing dots or spaces, <cbTrailingDotSpace>
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// is set to <cbTokenLen>.
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//
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cbTrailingDotSpace = TrailingDotsAndSpaces(pszBegin, cbTokenLen );
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//
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// See if the token has only trailing dots and spaces
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//
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if (cbTrailingDotSpace == 0) {
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//
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// Return an error if the length of the token is greater than 2.
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//
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if (cbTokenLen > 2) {
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SET_COMPUTERNAMEONLY(ERROR_INVALID_NAME);
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}
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//
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// Return an error if the first character is not a dot or if the
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// token length is 2 and the second character is not a dot.
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//
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if ((chFirstChar != TCHAR_DOT) || ((cbTokenLen == 2) && (pszBegin[1] != TCHAR_DOT))) {
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SET_COMPUTERNAMEONLY(ERROR_INVALID_NAME);
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}
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//
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// Now we're OK, since the token is either "." or ".."
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//
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}
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//
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// WE HAVE A VALID COMPONENT
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//
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*pflTokenType = TOKEN_TYPE_COMPONENT;
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//
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// Now we determine if this token matches any of the component-based
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// types.
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//
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//
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// Is it a drive?
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//
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if (IS_DRIVE(chFirstChar) && (cbTokenLen == 1)) {
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*pflTokenType |= TOKEN_TYPE_DRIVE;
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}
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//
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// Is it "." or ".." ?
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//
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// Since we've already validated this string, we know that if it
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// contains nothing but dots and spaces it must be one of these
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// two.
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//
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if (cbTrailingDotSpace == 0) {
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*pflTokenType |= cbTokenLen == 1 ? TOKEN_TYPE_DOT : TOKEN_TYPE_DOTDOT;
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}
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//
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// If the 8.3 flag is specified, we also have to check that the
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// component is in 8.3 format. We determine this as follows:
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//
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// Find the first dot in the token (or the end of the token).
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// Verify that at least 1 and at most 8 characters precede it.
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// Verify that at most 3 characters follow it.
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// Verify that none of the characters which follow it are dots.
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//
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// The exceptions to this are "." and "..". Therefore, we don't check
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// this until after we've already determined that this component is
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// neither of those.
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//
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if ((cbTrailingDotSpace != 0) && (flFlags & GTF_8_DOT_3)) {
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DWORD cbFirstDot;
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BOOL fNoDot;
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cbFirstDot = STRCSPN(pszBegin, _text_SingleDot);
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if (fNoDot = cbFirstDot >= cbTokenLen) {
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cbFirstDot = cbTokenLen;
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}
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if (cbFirstDot == 0
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|| cbFirstDot > 8
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|| cbTokenLen - cbFirstDot > 4
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|| (! fNoDot && STRCSPN(pszBegin + cbFirstDot + 1, _text_SingleDot)
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< cbTokenLen - (cbFirstDot + 1))) {
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SET_COMPUTERNAMEONLY(ERROR_INVALID_NAME);
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}
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if( bDBCS ) {
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//
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// In case of MBCS, We also need to check the string is valid in MBCS
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// because Unicode character count is not eqaul MBCS byte count
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CHAR szCharToken[13]; // 8 + 3 + dot + null
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int cbConverted = 0;
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BOOL bDefaultUsed = FALSE;
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// Convert Unicode string to Mbcs.
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cbConverted = WideCharToMultiByte( CP_OEMCP, 0,
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pszBegin, -1,
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szCharToken, sizeof(szCharToken),
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NULL, &bDefaultUsed );
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// If the converted langth is larger than the buffer, or the WideChar string
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// contains some character that is can not be repesented by MultiByte code page,
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// set error.
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if( cbConverted == FALSE || bDefaultUsed == TRUE ) {
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SET_COMPUTERNAMEONLY(ERROR_INVALID_NAME);
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} else {
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cbConverted -= 1; // Remove NULL;
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cbFirstDot = strcspn(szCharToken, ".");
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if (fNoDot = cbFirstDot >= (DWORD)cbConverted) {
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cbFirstDot = cbConverted;
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}
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if (cbFirstDot == 0
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|| cbFirstDot > 8
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|| cbConverted - cbFirstDot > 4
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|| (! fNoDot && strcspn(szCharToken + cbFirstDot + 1, ".")
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< cbConverted - (cbFirstDot + 1))) {
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SET_COMPUTERNAMEONLY(ERROR_INVALID_NAME);
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}
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}
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}
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}
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//
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// Does it contain wildcards?
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//
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// If so, set the appropriate flag(s).
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//
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// If not, it may be a valid computername.
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//
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if (STRCSPN(pszBegin, szWildcards) < cbTokenLen) {
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*pflTokenType |= TOKEN_TYPE_WILDCARD;
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//
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// Special case the single '*' token
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//
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if (cbTokenLen == 1 && chFirstChar == TCHAR_STAR) {
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*pflTokenType |= TOKEN_TYPE_WILDONE;
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}
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} else {
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if( cbTokenLen <= MAX_PATH ) {
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*pflTokenType |= TOKEN_TYPE_COMPUTERNAME;
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}
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}
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//
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// IMPORTANT: Now we've determined if the token is a valid computername.
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// If the <fComputernameOnly> flag is set and it's a valid
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// computername, then we turn off all other bits. If it's
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// not a valid computername, we return the stored error.
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// If the flag isn't set, we continue with the component name
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// processing.
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//
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if (fComputernameOnly) {
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if (*pflTokenType & TOKEN_TYPE_COMPUTERNAME) {
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*pflTokenType = TOKEN_TYPE_COMPUTERNAME;
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} else {
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#ifdef DEVDEBUG
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DbgPrint("GetToken - returning usNameError (%u)\n", usNameError);
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#endif
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return usNameError;
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}
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} else {
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//
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// Is this an LPT[1-9] token?
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//
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if (STRNICMP(pszBegin, szLPTName, LPT_TOKEN_LEN) == 0
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&& IS_NON_ZERO_DIGIT(pszBegin[LPT_TOKEN_LEN])
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&& cbTrailingDotSpace == LPT_TOKEN_LEN + 1) {
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*pflTokenType |= TOKEN_TYPE_LPT;
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}
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//
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// Is this an COM[1-9] token?
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//
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if (STRNICMP(pszBegin, szCOMName, COM_TOKEN_LEN) == 0
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&& IS_NON_ZERO_DIGIT(pszBegin[COM_TOKEN_LEN])
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&& cbTrailingDotSpace == COM_TOKEN_LEN + 1) {
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*pflTokenType |= TOKEN_TYPE_COM;
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}
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//
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// The remainder of the component-based token types are determined
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// by string comparisons. In order to speed things up, we store
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// these strings in sorted order and do a binary search on them,
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// which reduces the worst-case number of comparisons from N to
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// log N (where N is the number of strings).
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//
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iLow = (ULONG)-1;
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iHigh = NUM_STRING_TOKENS;
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while (iHigh - iLow > 1) {
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iMid = (iLow + iHigh) / 2;
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//
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// We do the comparison up to the length of the longer of the
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// two strings. This guarantees us a valid non-zero value for
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// iCmpVal if they don't match. It also means that they won't
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// match unless they're the same length.
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//
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iCmpVal = STRNICMP(pszBegin,
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StringTokenTable[iMid].pszTokenName,
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max(StringTokenTable[iMid].cbTokenLen,
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cbTrailingDotSpace) );
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if (iCmpVal < 0) {
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iHigh = iMid;
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} else if (iCmpVal > 0) {
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iLow = iMid;
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} else {
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//
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// We have a match!
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//
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*pflTokenType |= StringTokenTable[iMid].flTokenType;
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//
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// We can only match one, so don't bother continuing
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//
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break;
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}
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}
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}
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//
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// We're done; set the end pointer and return with success
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//
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*ppszEnd = pszBegin + cbTokenLen;
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#ifdef DEVDEBUG
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DbgPrint("GetToken - returning success\n");
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#endif
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return 0;
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}
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STATIC DWORD TrailingDotsAndSpaces(LPTSTR pszToken, DWORD cbTokenLen )
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{
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LPTSTR pszDotSpace = pszToken + cbTokenLen - 1;
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//
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// Scan the token until we reach the beginning or we find a
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// non-dot/space.
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//
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while (pszDotSpace >= pszToken
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&& (*pszDotSpace == TCHAR_DOT || *pszDotSpace == TCHAR_SPACE)) {
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pszDotSpace--;
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}
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//
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// Increment pszDotSpace so that it points to the beginning of
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// the trailing dots and spaces (or one past the end of the token
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// if there are no trailing dots or spaces).
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//
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pszDotSpace++;
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//
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// Return the index of the first trailing dot or space (or the length
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// of the token if there were none).
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//
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return (DWORD)(pszDotSpace - pszToken);
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}
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STATIC BOOL IsIllegalCharacter(LPTSTR pszString)
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{
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// TCHAR chTemp;
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// BOOL fRetVal;
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//
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// Return FALSE immediately for a null character
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//
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if (*pszString == TCHAR_EOS) {
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return FALSE;
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}
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//
|
|
// If the character is a single-byte character, we can simply see if
|
|
// it's illegal by calling strchrf() on the illegal character array.
|
|
// If it's a double-byte character, we have to do it the slower way
|
|
// (with strcspnf).
|
|
//
|
|
|
|
// if (!IS_LEAD_BYTE(*pszString)) {
|
|
return (STRCHR(szIllegalChars, *pszString) != NULL);
|
|
// } else {
|
|
//
|
|
// //
|
|
// // We set the character after the double-byte character to the
|
|
// // null character, to speed things up.
|
|
// //
|
|
//
|
|
// chTemp = pszString[2];
|
|
// pszString[2] = TCHAR_EOS;
|
|
// fRetVal = STRCSPN(pszString, szIllegalChars) == 0;
|
|
// pszString[2] = chTemp;
|
|
//
|
|
// return fRetVal;
|
|
// }
|
|
}
|