Source code of Windows XP (NT5)
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/******************************************************************************
Copyright(c) Microsoft Corporation
Module Name:
CreateValidations.cpp
Abstract:
This module validates the various -create sub options specified by the user
Author:
B.Raghu babu 20-Sept-2000 : Created
Revision History:
G.Surender Reddy 25-sep-2000 : Modified it
[ Added error checking ]
G.Surender Reddy 10-Oct-2000 : Modified it
[ made changes in validatemodifierval(),
ValidateDayAndMonth() functions ]
G.Surender Reddy 15-oct-2000 : Modified it
[ Moved the strings to Resource table ]
Venu Gopal S 26-Feb-2001 : Modified it
[ Added GetDateFormatString(),
GetDateFieldFormat() functions to
gets the date format according to
regional options]
******************************************************************************/
//common header files needed for this file
#include "pch.h"
#include "CommonHeaderFiles.h"
/******************************************************************************
Routine Description:
This routine validates the sub options specified by the user reg.create option
& determines the type of a scheduled task.
Arguments:
[ in ] tcresubops : Structure containing the task's properties
[ in ] tcreoptvals : Structure containing optional values to set
[ in ] cmdOptions[] : Array of type TCMDPARSER
[ in ] dwScheduleType : Type of schedule[Daily,once,weekly etc]
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else RETVAL_FAIL
on failure
******************************************************************************/
DWORD
ValidateSuboptVal(TCREATESUBOPTS& tcresubops, TCREATEOPVALS &tcreoptvals,
TCMDPARSER cmdOptions[], DWORD dwScheduleType)
{
DWORD dwRetval = RETVAL_SUCCESS;
BOOL bIsStDtCurDt = FALSE;
BOOL bIsStTimeCurTime = FALSE;
BOOL bIsDefltValMod = FALSE;
// Validate whether -s, -u, -p options specified correctly or not.
//Accept password if -p not specified.
if( dwRetval = ValidateRemoteSysInfo( tcresubops.szServer, tcresubops.szUser,
tcresubops.szPassword, cmdOptions, tcresubops, tcreoptvals) )
return dwRetval; // Error.
// Validate Modifier value.
if( dwRetval = ValidateModifierVal( tcresubops.szModifier, dwScheduleType,
cmdOptions[OI_MODIFIER].dwActuals,
cmdOptions[OI_DAY].dwActuals,
cmdOptions[OI_MONTHS].dwActuals,
bIsDefltValMod) )
{
return dwRetval; // error in modifier value
}
else
{
if(bIsDefltValMod)
lstrcpy(tcresubops.szModifier,DEFAULT_MODIFIER_SZ);
}
// Validate Day and Month strings
if ( dwRetval = ValidateDayAndMonth( tcresubops.szDays, tcresubops.szMonths,
dwScheduleType,
cmdOptions[OI_DAY].dwActuals,
cmdOptions[OI_MONTHS].dwActuals,
cmdOptions[OI_MODIFIER].dwActuals,
tcresubops.szModifier) )
{
return dwRetval; // Error found in Day/Month string.
}
// Validate Start Date value.
if ( dwRetval = ValidateStartDate( tcresubops.szStartDate, dwScheduleType,
cmdOptions[OI_STARTDATE].dwActuals,
bIsStDtCurDt) )
{
return dwRetval; // Error in Day/Month string.
}
else
{
if(bIsStDtCurDt) // Set start date to current date.
tcreoptvals.bSetStartDateToCurDate = TRUE;
}
// Validate End Date value.
if ( dwRetval = ValidateEndDate( tcresubops.szEndDate, dwScheduleType,
cmdOptions[OI_ENDDATE].dwActuals) )
{
return dwRetval; // Error in Day/Month string.
}
//Check Whether end date should be greater than startdate
WORD wEndDay = 0;
WORD wEndMonth = 0;
WORD wEndYear = 0;
WORD wStartDay = 0;
WORD wStartMonth = 0;
WORD wStartYear = 0;
WORD wFormatID = 0;
if( cmdOptions[OI_ENDDATE].dwActuals != 0 )
{
if( RETVAL_FAIL == GetDateFieldEntities( tcresubops.szEndDate,&wEndDay,
&wEndMonth,&wEndYear))
{
return S_FALSE;
}
}
SYSTEMTIME systime = {0,0,0,0,0,0,0,0};
if(bIsStDtCurDt)
{
GetLocalTime(&systime);
wStartDay = systime.wDay;
wStartMonth = systime.wMonth;
wStartYear = systime.wYear;
}
else if( ( cmdOptions[OI_STARTDATE].dwActuals != 0 ) &&
(RETVAL_FAIL == GetDateFieldEntities(tcresubops.szStartDate,
&wStartDay,&wStartMonth,
&wStartYear)))
{
return S_FALSE;
}
if( (cmdOptions[OI_ENDDATE].dwActuals != 0) )
{
if( ( wEndYear == wStartYear ) )
{
// For same years if the end month is less than start month or for same years and same months
// if the endday is less than the startday.
if ( ( wEndMonth < wStartMonth ) || ( ( wEndMonth == wStartMonth ) && ( wEndDay < wStartDay ) ) )
{
DISPLAY_MESSAGE(stderr, GetResString(IDS_ENDATE_INVALID));
return RETVAL_FAIL;
}
}
else if ( wEndYear < wStartYear )
{
DISPLAY_MESSAGE(stderr, GetResString(IDS_ENDATE_INVALID));
return RETVAL_FAIL;
}
}
// Validate Start Time value.
if ( dwRetval = ValidateStartTime( tcresubops.szStartTime, dwScheduleType,
cmdOptions[OI_STARTTIME].dwActuals,
bIsStTimeCurTime) )
{
return dwRetval; // Error found in starttime.
}
else
{
if(bIsStTimeCurTime)
tcreoptvals.bSetStartTimeToCurTime = TRUE;
}
// Validate Idle Time value.
if ( dwRetval = ValidateIdleTimeVal( tcresubops.szIdleTime, dwScheduleType,
cmdOptions[OI_IDLETIME].dwActuals) )
{
return dwRetval;
}
return RETVAL_SUCCESS;
}
/******************************************************************************
Routine Description:
This routine validates the options specified by the user reg.create
option for remote server.
Arguments:
[ in ] szServer : Server name
[ in ] szUser : User name
[ in ] szPassword : Password
[ in ] cmdOptions : TCMDPARSER Array containg the options given by the user
[ in ] tcreoptvals: Structure containing optional values to set
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else RETVAL_FAIL
on failure
******************************************************************************/
DWORD ValidateRemoteSysInfo(LPTSTR szServer, LPTSTR szUser, LPTSTR szPassword,
TCMDPARSER cmdOptions[], TCREATESUBOPTS& tcresubops, TCREATEOPVALS& tcreoptvals)
{
// "-rp" should not be specified without "-ru"
if ( ( ( cmdOptions[ OI_RUNASUSERNAME ].dwActuals == 0 ) && ( cmdOptions[ OI_RUNASPASSWORD ].dwActuals == 1 ) ) ||
( ( cmdOptions[ OI_USERNAME ].dwActuals == 0 ) && ( cmdOptions[ OI_PASSWORD ].dwActuals == 1 ) ) ||
( ( cmdOptions[ OI_USERNAME ].dwActuals == 0 ) && ( cmdOptions[ OI_RUNASPASSWORD ].dwActuals == 1 ) && ( cmdOptions[ OI_PASSWORD ].dwActuals == 1 ) ) ||
( ( cmdOptions[ OI_RUNASUSERNAME ].dwActuals == 0 ) && ( cmdOptions[ OI_RUNASPASSWORD ].dwActuals == 1 ) && ( cmdOptions[ OI_PASSWORD ].dwActuals == 1 ) ) ||
( ( cmdOptions[ OI_USERNAME ].dwActuals == 0 ) && ( cmdOptions[ OI_RUNASUSERNAME ].dwActuals == 0 ) &&
( cmdOptions[ OI_RUNASPASSWORD ].dwActuals == 1 ) && ( cmdOptions[ OI_PASSWORD ].dwActuals == 1 ) ) )
{
// invalid syntax
DISPLAY_MESSAGE(stderr, GetResString(IDS_CPASSWORD_BUT_NOUSERNAME));
return RETVAL_FAIL; // indicate failure
}
if ( IsLocalSystem( tcresubops.szServer ) == TRUE )
{
tcreoptvals.bPassword = TRUE;
}
// check whether the password (-p) specified in the command line or not
// and also check whether '*' or empty is given for -p or not
if( cmdOptions[ OI_PASSWORD ].dwActuals == 1 )
{
if ( IsLocalSystem( tcresubops.szServer ) == FALSE )
{
if( lstrcmpi (tcresubops.szPassword, ASTERIX) == 0 )
{
tcreoptvals.bPassword = FALSE;
}
else
{
tcreoptvals.bPassword = TRUE;
}
}
}
if( ( cmdOptions[ OI_RUNASPASSWORD ].dwActuals == 1 ) )
{
tcreoptvals.bRunAsPassword = TRUE;
}
return RETVAL_SUCCESS;
}
/******************************************************************************
Routine Description:
This routine validates & determines the modifier value .
Arguments:
[ in ] szModifier : Modifer value
[ in ] dwScheduleType : Type of schedule[Daily,once,weekly etc]
[ in ] dwModOptActCnt : Modifier optional value
[ in ] dwDayOptCnt : Days value
[ in ] dwMonOptCnt : Months value
[ out ] bIsDefltValMod : Whether default value should be given for modifier
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else RETVAL_FAIL
on failure
******************************************************************************/
DWORD
ValidateModifierVal(LPCTSTR szModifier, DWORD dwScheduleType,
DWORD dwModOptActCnt, DWORD dwDayOptCnt,
DWORD dwMonOptCnt, BOOL& bIsDefltValMod
)
{
TCHAR szDayType[MAX_RES_STRING];
DWORD dwModifier = 0;
lstrcpy(szDayType,GetResString(IDS_TASK_FIRSTWEEK));
lstrcat(szDayType,_T("|"));
lstrcat(szDayType,GetResString(IDS_TASK_SECONDWEEK));
lstrcat(szDayType,_T("|"));
lstrcat(szDayType,GetResString(IDS_TASK_THIRDWEEK));
lstrcat(szDayType,_T("|"));
lstrcat(szDayType,GetResString(IDS_TASK_FOURTHWEEK));
lstrcat(szDayType,_T("|"));
lstrcat(szDayType,GetResString(IDS_TASK_LASTWEEK));
bIsDefltValMod = FALSE; // If TRUE : Set modifier to default value, 1.
LPTSTR pszStopString = NULL;
switch( dwScheduleType )
{
case SCHED_TYPE_MINUTE: // Schedule type is Minute
if( (dwModOptActCnt <= 0) || (lstrlen(szModifier) < 0) )
{
bIsDefltValMod = TRUE;
return RETVAL_SUCCESS;
}
dwModifier = _tcstoul(szModifier,&pszStopString,BASE_TEN);
if( lstrlen( pszStopString ))
break;
if( dwModifier > 0 && dwModifier < 1440 ) // Valid Range 1 - 1439
return RETVAL_SUCCESS;
break;
// Schedule type is Hourly
case SCHED_TYPE_HOURLY:
if( (dwModOptActCnt <= 0) || (lstrlen(szModifier) < 0) )
{
bIsDefltValMod = TRUE;
return RETVAL_SUCCESS;
}
dwModifier = _tcstoul(szModifier,&pszStopString,BASE_TEN);
if( lstrlen( pszStopString ) )
break;
if( dwModifier > 0 && dwModifier < 24 ) // Valid Range 1 - 23
return RETVAL_SUCCESS;
break;
// Schedule type is Daily
case SCHED_TYPE_DAILY:
// -days option is NOT APPLICABLE for DAILY type item.
if( (dwDayOptCnt > 0) )
{// Invalid sysntax. Return error
// Modifier option and days options both should not specified same time.
bIsDefltValMod = FALSE;
DISPLAY_MESSAGE(stderr, GetResString(IDS_DAYS_NA));
return RETVAL_FAIL;
}
// -months option is NOT APPLICABLE for DAILY type item.
if( dwMonOptCnt > 0 )
{// Invalid sysntax. Return error
// Modifier option and days options both should not specified same time.
bIsDefltValMod = FALSE;
DISPLAY_MESSAGE(stderr , GetResString(IDS_MON_NA));
return RETVAL_FAIL;
}
// Check whether the -modifier switch is psecified. If not, then take default value.
if( (dwModOptActCnt <= 0) || (lstrlen(szModifier) < 0) )
{
// Modifier options is not specified. So, set it to default value. (i.e, 1 )
bIsDefltValMod = TRUE;
return RETVAL_SUCCESS;
}
dwModifier = _tcstoul(szModifier,&pszStopString,BASE_TEN);
if( lstrlen( pszStopString ) )
break;
// If the -modifier option is specified, then validate the value.
if( dwModifier > 0 && dwModifier < 366 ) // Valid Range 1 - 365
{
return RETVAL_SUCCESS;
}
else
{
DISPLAY_MESSAGE(stderr, GetResString(IDS_INVALID_MODIFIER));
return RETVAL_FAIL;
}
break;
// Schedule type is Weekly
case SCHED_TYPE_WEEKLY:
// If -modifier option is not specified, then set it to default value.
if( (dwModOptActCnt <= 0) || (lstrlen(szModifier) < 0) )
{
// Modifier options is not specified. So, set it to default value. (i.e, 1 )
bIsDefltValMod = TRUE;
return RETVAL_SUCCESS;
}
if( dwModOptActCnt > 0)
{
dwModifier = _tcstoul(szModifier,&pszStopString,BASE_TEN);
if( lstrlen( pszStopString ) )
break;
if( dwModifier > 0 && dwModifier < 53 ) // Valid Range 1 - 52
return RETVAL_SUCCESS;
break;
}
break;
// Schedule type is Monthly
case SCHED_TYPE_MONTHLY:
// If -modifier option is not specified, then set it to default value.
if( ( dwModOptActCnt > 0) && (lstrlen(szModifier) == 0) )
{
// Modifier option is not proper. So display error and return false.
bIsDefltValMod = FALSE;
DISPLAY_MESSAGE(stderr, GetResString(IDS_INVALID_MODIFIER));
return RETVAL_FAIL;
}
//check if the modifier is LASTDAY[not case sensitive]
if( lstrcmpi( szModifier , GetResString( IDS_DAY_MODIFIER_LASTDAY ) ) == 0)
return RETVAL_SUCCESS;
//Check if -mo is in between FIRST,SECOND ,THIRD, LAST
//then -days[ MON to SUN ] is applicable , -months is also applicable
if( InString ( szModifier , szDayType , TRUE ) )
{
return RETVAL_SUCCESS;
}
else
{
dwModifier = _tcstoul(szModifier,&pszStopString,BASE_TEN);
if( lstrlen( pszStopString ) )
break;
if( ( dwModOptActCnt == 1 ) && ( dwModifier < 1 || dwModifier > 12 ) ) //check whether -mo value is in between 1 - 12
{
//invalid -mo value
DISPLAY_MESSAGE(stderr, GetResString(IDS_INVALID_MODIFIER));
return RETVAL_FAIL;
}
return RETVAL_SUCCESS;
}
break;
case SCHED_TYPE_ONETIME:
case SCHED_TYPE_ONSTART:
case SCHED_TYPE_ONLOGON:
case SCHED_TYPE_ONIDLE:
if( dwModOptActCnt <= 0 )
{
// Modifier option is not applicable. So, return success.
bIsDefltValMod = FALSE;
return RETVAL_SUCCESS;
}
else
{
// Modifier option is not applicable. But specified. So, return error.
bIsDefltValMod = FALSE;
DISPLAY_MESSAGE(stderr, GetResString(IDS_MODIFIER_NA));
return RETVAL_FAIL;
}
break;
default:
return RETVAL_FAIL;
}
// Modifier option is not proper. So display error and return false.
bIsDefltValMod = FALSE;
DISPLAY_MESSAGE(stderr, GetResString(IDS_INVALID_MODIFIER));
return RETVAL_FAIL;
}
/******************************************************************************
Routine Description:
This routine validates & determines the day,month value .
Arguments:
[ in ] szDay : Day value
[ in ] szMonths : Months[Daily,once,weekly etc]
[ in ] dwSchedType : Modifier optional value
[ in ] dwDayOptCnt : Days option value
[ in ] dwMonOptCnt : Months option value
[ in ] dwOptModifier : Modifier option value
[ in ] szModifier : Whether default value for modifier
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else RETVAL_FAIL
on failure
******************************************************************************/
DWORD
ValidateDayAndMonth(LPTSTR szDay, LPTSTR szMonths, DWORD dwSchedType,
DWORD dwDayOptCnt,DWORD dwMonOptCnt, DWORD dwOptModifier, LPTSTR szModifier)
{
DWORD dwRetval = 0;
DWORD dwModifier = 0;
DWORD dwDays = 0;
TCHAR szDayModifier[MAX_RES_STRING] = NULL_STRING;
//get the valid week day modifiers from the rc file
lstrcpy(szDayModifier,GetResString(IDS_TASK_FIRSTWEEK));
lstrcat(szDayModifier,_T("|"));
lstrcat(szDayModifier,GetResString(IDS_TASK_SECONDWEEK));
lstrcat(szDayModifier,_T("|"));
lstrcat(szDayModifier,GetResString(IDS_TASK_THIRDWEEK));
lstrcat(szDayModifier,_T("|"));
lstrcat(szDayModifier,GetResString(IDS_TASK_FOURTHWEEK));
lstrcat(szDayModifier,_T("|"));
lstrcat(szDayModifier,GetResString(IDS_TASK_LASTWEEK));
switch (dwSchedType)
{
case SCHED_TYPE_DAILY:
// -days and -months optons is not applicable. SO, check for it.
if( dwDayOptCnt > 0 || dwMonOptCnt > 0)
{
return RETVAL_FAIL;
}
return RETVAL_SUCCESS;
break;
case SCHED_TYPE_MONTHLY:
if( dwMonOptCnt > 0 && lstrlen(szMonths) == 0)
{
DISPLAY_MESSAGE(stderr, GetResString(IDS_INVALID_VALUE_FOR_MON));
return RETVAL_FAIL;
}
//if the modifier is LASTDAY
if( lstrcmpi( szModifier , GetResString( IDS_DAY_MODIFIER_LASTDAY ) ) == 0)
{
//-day is not applicable for this case only -months is applicable
if( dwDayOptCnt > 0 )
{
DISPLAY_MESSAGE(stderr, GetResString(IDS_DAYS_NA));
return RETVAL_FAIL;
}
if(lstrlen(szMonths))
{
if( ( ValidateMonth( szMonths ) == RETVAL_SUCCESS ) ||
InString( szMonths, ASTERIX, TRUE ) )
{
return RETVAL_SUCCESS;
}
else
{
DISPLAY_MESSAGE(stderr , GetResString(IDS_INVALID_VALUE_FOR_MON));
return RETVAL_FAIL;
}
}
else
{
DISPLAY_MESSAGE(stderr ,GetResString(IDS_NO_MONTH_VALUE));
return RETVAL_FAIL;
}
}
// If -day is specified then check whether the day value is valid or not.
if( InString( szDay, ASTERIX, TRUE) )
{
DISPLAY_MESSAGE(stderr ,GetResString(IDS_INVALID_VALUE_FOR_DAY));
return RETVAL_FAIL;
}
if(( lstrlen (szDay ) == 0 ) && InString(szModifier, szDayModifier, TRUE))
{
DISPLAY_MESSAGE(stderr, GetResString(IDS_NO_DAY_VALUE));
return RETVAL_FAIL;
}
if( dwDayOptCnt )
{
dwModifier = (DWORD) AsLong(szModifier, BASE_TEN);
//check for multiples days,if then return error
if ( _tcspbrk ( szDay , COMMA_STRING ) )
{
DISPLAY_MESSAGE(stderr, GetResString(IDS_INVALID_VALUE_FOR_DAY));
return RETVAL_FAIL;
}
if( ValidateDay( szDay ) == RETVAL_SUCCESS )
{
//Check the modifier value should be in FIRST, SECOND, THIRD, FOURTH, LAST OR LASTDAY etc..
if(!( InString(szModifier, szDayModifier, TRUE) ) )
{
DISPLAY_MESSAGE(stderr, GetResString(IDS_INVALID_VALUE_FOR_DAY));
return RETVAL_FAIL;
}
}
else
{
dwDays = (DWORD) AsLong(szDay, BASE_TEN);
if( ( dwDays < 1 ) || ( dwDays > 31 ) )
{
DISPLAY_MESSAGE(stderr, GetResString(IDS_INVALID_VALUE_FOR_DAY));
return RETVAL_FAIL;
}
if( ( dwOptModifier == 1 ) && ( ( dwModifier < 1 ) || ( dwModifier > 12 ) ) )
{
DISPLAY_MESSAGE(stderr, GetResString(IDS_INVALID_MODIFIER));
return RETVAL_FAIL;
}
if( InString(szModifier, szDayModifier, TRUE) )
{
DISPLAY_MESSAGE(stderr, GetResString(IDS_INVALID_VALUE_FOR_DAY));
return RETVAL_FAIL;
}
if(dwMonOptCnt && lstrlen(szModifier))
{
DISPLAY_MESSAGE(stderr ,GetResString(IDS_INVALID_VALUE_FOR_MON));
return RETVAL_FAIL;
}
}
} //end of dwDayOptCnt
if(lstrlen(szMonths))
{
if( lstrlen(szModifier) )
{
dwModifier = (DWORD) AsLong(szModifier, BASE_TEN);
if(dwModifier >= 1 && dwModifier <= 12)
{
DISPLAY_MESSAGE( stderr ,GetResString(IDS_MON_NA));
return RETVAL_FAIL;
}
}
if( ( ValidateMonth( szMonths ) == RETVAL_SUCCESS ) ||
InString( szMonths, ASTERIX, TRUE ) )
{
return RETVAL_SUCCESS;
}
else
{
DISPLAY_MESSAGE(stderr ,GetResString(IDS_INVALID_VALUE_FOR_MON));
return RETVAL_FAIL;
}
}
// assgin default values for month,day
return RETVAL_SUCCESS;
case SCHED_TYPE_HOURLY:
case SCHED_TYPE_ONETIME:
case SCHED_TYPE_ONSTART:
case SCHED_TYPE_ONLOGON:
case SCHED_TYPE_ONIDLE:
case SCHED_TYPE_MINUTE:
// -months switch is NOT APPLICABLE.
if( dwMonOptCnt > 0 )
{
DISPLAY_MESSAGE(stderr ,GetResString(IDS_MON_NA));
return RETVAL_FAIL;
}
// -days switch is NOT APPLICABLE.
if( dwDayOptCnt > 0 )
{
DISPLAY_MESSAGE(stderr ,GetResString(IDS_DAYS_NA));
return RETVAL_FAIL;
}
break;
case SCHED_TYPE_WEEKLY:
// -months field is NOT APPLICABLE for WEEKLY item.
if( dwMonOptCnt > 0 )
{
DISPLAY_MESSAGE(stderr ,GetResString(IDS_MON_NA));
return RETVAL_FAIL;
}
if(dwDayOptCnt > 0)
{
if( dwRetval = ValidateDay(szDay) )
{
DISPLAY_MESSAGE(stderr ,GetResString(IDS_INVALID_VALUE_FOR_DAY));
return RETVAL_FAIL;
}
}
return RETVAL_SUCCESS;
default:
break;
}
return RETVAL_SUCCESS;
}
/******************************************************************************
Routine Description:
This routine validates the months values specified by the user
Arguments:
[ in ] szMonths : Months options given by user
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else RETVAL_FAIL
on failure
******************************************************************************/
DWORD
ValidateMonth(LPTSTR szMonths)
{
_TCHAR* pMonthstoken = NULL; // For getting months.
_TCHAR seps[] = _T(", \n");
_TCHAR szMonthsList[MAX_STRING_LENGTH] = NULL_STRING;
_TCHAR szTmpMonths[MAX_STRING_LENGTH] = NULL_STRING;
_TCHAR szPrevTokens[MAX_TOKENS_LENGTH] = NULL_STRING;
LPCTSTR lpsz = NULL;
// If the szMonths string is empty or NULL return error.
if( szMonths == NULL )
{
return RETVAL_FAIL;
}
else
{
lpsz = szMonths;
}
//check for any illegal input like only ,DEC,[comma at the end of month name or before]
if(*lpsz == _T(','))
return RETVAL_FAIL;
lpsz = _tcsdec(lpsz, lpsz + _tcslen(lpsz) );
if( lpsz != NULL )
{
if( *lpsz == _T(','))
return RETVAL_FAIL;
}
//get the valid month modifiers from the rc file
lstrcpy(szMonthsList,GetResString(IDS_MONTH_MODIFIER_JAN));
lstrcat(szMonthsList,_T("|"));
lstrcat(szMonthsList,GetResString(IDS_MONTH_MODIFIER_FEB));
lstrcat(szMonthsList,_T("|"));
lstrcat(szMonthsList,GetResString(IDS_MONTH_MODIFIER_MAR));
lstrcat(szMonthsList,_T("|"));
lstrcat(szMonthsList,GetResString(IDS_MONTH_MODIFIER_APR));
lstrcat(szMonthsList,_T("|"));
lstrcat(szMonthsList,GetResString(IDS_MONTH_MODIFIER_MAY));
lstrcat(szMonthsList,_T("|"));
lstrcat(szMonthsList,GetResString(IDS_MONTH_MODIFIER_JUN));
lstrcat(szMonthsList,_T("|"));
lstrcat(szMonthsList,GetResString(IDS_MONTH_MODIFIER_JUL));
lstrcat(szMonthsList,_T("|"));
lstrcat(szMonthsList,GetResString(IDS_MONTH_MODIFIER_AUG));
lstrcat(szMonthsList,_T("|"));
lstrcat(szMonthsList,GetResString(IDS_MONTH_MODIFIER_SEP));
lstrcat(szMonthsList,_T("|"));
lstrcat(szMonthsList,GetResString(IDS_MONTH_MODIFIER_OCT));
lstrcat(szMonthsList,_T("|"));
lstrcat(szMonthsList,GetResString(IDS_MONTH_MODIFIER_NOV));
lstrcat(szMonthsList,_T("|"));
lstrcat(szMonthsList,GetResString(IDS_MONTH_MODIFIER_DEC));
if( InString( szMonths , szMonthsList , TRUE ) &&
InString( szMonths , ASTERIX , TRUE ) )
{
return RETVAL_FAIL;
}
if( InString( szMonths , ASTERIX , TRUE ) )
return RETVAL_SUCCESS;
//Check for multiple commas[,] after months like FEB,,,MAR errors
lpsz = szMonths;
while ( lstrlen ( lpsz ) )
{
if(*lpsz == _T(','))
{
lpsz = _tcsinc(lpsz);
while ( ( lpsz != NULL ) && ( _istspace(*lpsz) ) )
lpsz = _tcsinc(lpsz);
if( lpsz != NULL )
{
if(*lpsz == _T(','))
return RETVAL_FAIL;
}
}
else
lpsz = _tcsinc(lpsz);
}
lstrcpy(szTmpMonths, szMonths);
_TCHAR* pPrevtoken = NULL;
pMonthstoken = _tcstok( szTmpMonths, seps );
if( !(InString(pMonthstoken, szMonthsList, TRUE)) )
return RETVAL_FAIL;
if( pMonthstoken )
lstrcpy ( szPrevTokens, pMonthstoken);
while( pMonthstoken != NULL )
{
//check if month names are replicated like MAR,MAR from user input
pPrevtoken = pMonthstoken;
pMonthstoken = _tcstok( NULL, seps );
if ( pMonthstoken == NULL)
return RETVAL_SUCCESS;
if( !(InString(pMonthstoken, szMonthsList, TRUE)) )
return RETVAL_FAIL;
if( InString(pMonthstoken,szPrevTokens, TRUE) )
return RETVAL_FAIL;
lstrcat( szPrevTokens, _T("|"));
lstrcat( szPrevTokens, pMonthstoken);
}
return RETVAL_SUCCESS;
}
/******************************************************************************
Routine Description:
This routine validates the days values specified by the user
Arguments:
[ in ] szDays : Days options given by user
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else RETVAL_FAIL
on failure
******************************************************************************/
DWORD
ValidateDay(LPTSTR szDays)
{
TCHAR* pDaystoken = NULL;
TCHAR seps[] = _T(", \n");
TCHAR szDayModifier[MAX_STRING_LENGTH ] = NULL_STRING;
TCHAR szTmpDays[MAX_STRING_LENGTH] = NULL_STRING;
//get the valid day modifiers from the rc file
lstrcpy(szDayModifier,GetResString(IDS_DAY_MODIFIER_SUN));
lstrcat(szDayModifier,_T("|"));
lstrcat(szDayModifier,GetResString(IDS_DAY_MODIFIER_MON));
lstrcat(szDayModifier,_T("|"));
lstrcat(szDayModifier,GetResString(IDS_DAY_MODIFIER_TUE));
lstrcat(szDayModifier,_T("|"));
lstrcat(szDayModifier,GetResString(IDS_DAY_MODIFIER_WED));
lstrcat(szDayModifier,_T("|"));
lstrcat(szDayModifier,GetResString(IDS_DAY_MODIFIER_THU));
lstrcat(szDayModifier,_T("|"));
lstrcat(szDayModifier,GetResString(IDS_DAY_MODIFIER_FRI));
lstrcat(szDayModifier,_T("|"));
lstrcat(szDayModifier,GetResString(IDS_DAY_MODIFIER_SAT));
//check for any illegal input like MON, or ,MON [comma at the end of day name or before]
LPCTSTR lpsz = NULL;
if( szDays != NULL)
lpsz = szDays;
else
return RETVAL_FAIL;
if(*lpsz == _T(','))
return RETVAL_FAIL;
lpsz = _tcsdec(lpsz, lpsz + _tcslen(lpsz) );
if( lpsz != NULL )
{
if( *lpsz == _T(',') )
return RETVAL_FAIL;
}
if ( ( lpsz != NULL ) && ( _istspace(*lpsz) ))
{
return RETVAL_FAIL;
}
if( (InString( szDays , szDayModifier , TRUE )) || (InString( szDays , ASTERIX , TRUE )))
{
return RETVAL_SUCCESS;
}
//Check for multiple commas[,] after days like SUN,,,TUE errors
lpsz = szDays;
while ( lstrlen ( lpsz ) )
{
if(*lpsz == _T(','))
{
lpsz = _tcsinc(lpsz);
while ( ( lpsz != NULL ) && ( _istspace(*lpsz) ))
lpsz = _tcsinc(lpsz);
if( lpsz != NULL )
{
if(*lpsz == _T(','))
return RETVAL_FAIL;
}
}
else
{
lpsz = _tcsinc(lpsz);
}
}
if(szDays != NULL)
lstrcpy(szTmpDays, szDays);
// If the szDays string is empty or NULL return error.
if( (lstrlen(szTmpDays) <= 0) )
{
return RETVAL_FAIL;
}
//_TCHAR* pPrevtoken = NULL;
_TCHAR szPrevtokens[MAX_TOKENS_LENGTH] = NULL_STRING;
// Establish string and get the first token:
pDaystoken = _tcstok( szTmpDays, seps );
if( pDaystoken )
lstrcpy( szPrevtokens , pDaystoken );
while( pDaystoken != NULL )
{
//check if day names are replicated like SUN,MON,SUN from user input
if( !(InString(pDaystoken,szDayModifier,TRUE)) )
{
return RETVAL_FAIL;
}
pDaystoken = _tcstok( NULL, seps );
if( pDaystoken )
{
if( (InString(pDaystoken,szPrevtokens,TRUE)) )
{
return RETVAL_FAIL;
}
lstrcat( szPrevtokens , _T("|") );
lstrcat( szPrevtokens , pDaystoken );
}
}
return RETVAL_SUCCESS;
}
/******************************************************************************
Routine Description:
This routine validates the start date specified by the user
Arguments:
[ in ] szStartDate : Start date specified by user
[ in ] dwSchedType : Schedule type
[ in ] dwStDtOptCnt : whether start date specified by the user
[ out ] bIsCurrentDate : If start date not specified then startdate = current date
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else RETVAL_FAIL
on failure
******************************************************************************/
DWORD
ValidateStartDate(LPTSTR szStartDate, DWORD dwSchedType, DWORD dwStDtOptCnt,
BOOL &bIsCurrentDate)
{
DWORD dwRetval = RETVAL_SUCCESS;
bIsCurrentDate = FALSE; // If TRUE : Startdate should be set to Current Date.
TCHAR szBuffer[MAX_STRING_LENGTH] = NULL_STRING;
_TCHAR* szValues[1] = {NULL};//To pass to FormatMessage() API
TCHAR szFormat[MAX_DATE_STR_LEN] = NULL_STRING;
if ( RETVAL_FAIL == GetDateFormatString( szFormat) )
{
return RETVAL_FAIL;
}
switch (dwSchedType)
{
case SCHED_TYPE_MINUTE:
case SCHED_TYPE_HOURLY:
case SCHED_TYPE_DAILY:
case SCHED_TYPE_WEEKLY:
case SCHED_TYPE_MONTHLY:
case SCHED_TYPE_ONIDLE:
case SCHED_TYPE_ONSTART:
case SCHED_TYPE_ONLOGON:
if( (dwStDtOptCnt <= 0))
{
bIsCurrentDate = TRUE;
return RETVAL_SUCCESS;
}
if(dwRetval = ValidateDateString(szStartDate))
{
szValues[0] = (_TCHAR*) (szFormat);
FormatMessage(FORMAT_MESSAGE_FROM_STRING|FORMAT_MESSAGE_ARGUMENT_ARRAY,
GetResString(IDS_INVALIDFORMAT_STARTDATE),0,MAKELANGID(LANG_NEUTRAL,
SUBLANG_DEFAULT),szBuffer,
MAX_STRING_LENGTH,(va_list*)szValues );
DISPLAY_MESSAGE(stderr, szBuffer);
return dwRetval;
}
return RETVAL_SUCCESS;
case SCHED_TYPE_ONETIME:
if( (dwStDtOptCnt <= 0))
{
bIsCurrentDate = TRUE;
return RETVAL_SUCCESS;
}
if( (dwRetval = ValidateDateString(szStartDate)))
{
szValues[0] = (_TCHAR*) (szFormat);
FormatMessage(FORMAT_MESSAGE_FROM_STRING|FORMAT_MESSAGE_ARGUMENT_ARRAY,
GetResString(IDS_INVALIDFORMAT_STARTDATE),0,MAKELANGID(LANG_NEUTRAL,
SUBLANG_DEFAULT),szBuffer,
MAX_STRING_LENGTH,(va_list*)szValues );
DISPLAY_MESSAGE(stderr, szBuffer);
return dwRetval;
}
return RETVAL_SUCCESS;
default:
break;
}
return RETVAL_FAIL;
}
/******************************************************************************
Routine Description:
This routine validates the end date specified by the user
Arguments:
[ in ] szEndDate : End date specified by user
[ in ] dwSchedType : Schedule type
[ in ] dwEndDtOptCnt : whether end date specified by the user
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else RETVAL_FAIL
on failure
******************************************************************************/
DWORD
ValidateEndDate(LPTSTR szEndDate, DWORD dwSchedType, DWORD dwEndDtOptCnt)
{
DWORD dwRetval = RETVAL_SUCCESS; // return value
TCHAR szFormat[MAX_DATE_STR_LEN] = NULL_STRING;
_TCHAR* szValues[1] = {NULL};//To pass to FormatMessage() API
TCHAR szBuffer[MAX_STRING_LENGTH] = NULL_STRING;
if ( RETVAL_FAIL == GetDateFormatString( szFormat) )
{
return RETVAL_FAIL;
}
switch (dwSchedType)
{
case SCHED_TYPE_MINUTE:
case SCHED_TYPE_HOURLY:
case SCHED_TYPE_DAILY:
case SCHED_TYPE_WEEKLY:
case SCHED_TYPE_MONTHLY:
if( (dwEndDtOptCnt <= 0))
{
// No default value & Value is not mandatory.. so return success.
szEndDate = NULL_STRING; // Set to empty string.
return RETVAL_SUCCESS;
}
if(dwRetval = ValidateDateString(szEndDate))
{
szValues[0] = (_TCHAR*) (szFormat);
FormatMessage(FORMAT_MESSAGE_FROM_STRING|FORMAT_MESSAGE_ARGUMENT_ARRAY,
GetResString(IDS_INVALIDFORMAT_ENDDATE),0,MAKELANGID(LANG_NEUTRAL,
SUBLANG_DEFAULT),szBuffer,
MAX_STRING_LENGTH,(va_list*)szValues );
DISPLAY_MESSAGE(stderr, szBuffer);
return dwRetval;
}
else
{
return RETVAL_SUCCESS;
}
break;
case SCHED_TYPE_ONSTART:
case SCHED_TYPE_ONLOGON:
case SCHED_TYPE_ONIDLE:
case SCHED_TYPE_ONETIME:
if( dwEndDtOptCnt > 0 )
{
// Error. End date is not applicable here, but option specified.
DISPLAY_MESSAGE(stderr,GetResString(IDS_ENDDATE_NA));
return RETVAL_FAIL;
}
else
{
return RETVAL_SUCCESS;
}
break;
default:
// Never comes here.
break;
}
return RETVAL_FAIL;
}
/******************************************************************************
Routine Description:
This routine validates the start time specified by the user
Arguments:
[ in ] szStartTime : End date specified by user
[ in ] dwSchedType : Schedule type
[ in ] dwStTimeOptCnt : whether end date specified by the user
[ out ] bIsCurrentTime : Determine if start time is present else assign
to current time
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else
RETVAL_FAIL on failure
******************************************************************************/
DWORD
ValidateStartTime(LPTSTR szStartTime, DWORD dwSchedType, DWORD dwStTimeOptCnt,
BOOL &bIsCurrentTime)
{
DWORD dwRetval = RETVAL_SUCCESS; // return value
bIsCurrentTime = FALSE; // If TRUE : Startdate should be set to Current Date.
switch (dwSchedType)
{
case SCHED_TYPE_MINUTE:
case SCHED_TYPE_HOURLY:
case SCHED_TYPE_DAILY:
case SCHED_TYPE_WEEKLY:
case SCHED_TYPE_MONTHLY:
if( (dwStTimeOptCnt <= 0))
{
bIsCurrentTime = TRUE;
return RETVAL_SUCCESS;
}
if(dwRetval = ValidateTimeString(szStartTime))
{
// Error. Invalid date string.
DISPLAY_MESSAGE(stderr,GetResString(IDS_INVALIDFORMAT_STARTTIME));
return dwRetval;
}
return RETVAL_SUCCESS;
case SCHED_TYPE_ONETIME:
if( (dwStTimeOptCnt <= 0))
{
// Error. Start Time is not specified.
DISPLAY_MESSAGE(stderr,GetResString(IDS_NO_STARTTIME));
return RETVAL_FAIL;
}
else if(dwRetval = ValidateTimeString(szStartTime))
{
// Error. Invalid date string.
DISPLAY_MESSAGE(stderr,GetResString(IDS_INVALIDFORMAT_STARTTIME));
return dwRetval;
}
return RETVAL_SUCCESS;
case SCHED_TYPE_ONSTART:
case SCHED_TYPE_ONLOGON:
case SCHED_TYPE_ONIDLE:
if( dwStTimeOptCnt > 0 )
{
// Start Time is not applicable in this option.
//But the -starttime option specified. Display error.
DISPLAY_MESSAGE(stderr,GetResString(IDS_STARTTIME_NA));
return RETVAL_FAIL;
}
else
{
return RETVAL_SUCCESS;
}
break;
default:
// Never comes here.
break;
}
return RETVAL_FAIL;
}
/******************************************************************************
Routine Description:
This routine validates the idle time specified by the user
Arguments:
[ in ] szIdleTime : Ilde time specified by user
[ in ] dwSchedType : Schedule type
[ in ] dwIdlTimeOptCnt : whether Idle time specified by the user
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else
RETVAL_FAIL on failure
******************************************************************************/
DWORD
ValidateIdleTimeVal(LPTSTR szIdleTime, DWORD dwSchedType,
DWORD dwIdlTimeOptCnt)
{
long lIdleTime = 0;
LPTSTR pszStopString = NULL;
switch (dwSchedType)
{
case SCHED_TYPE_MINUTE:
case SCHED_TYPE_HOURLY:
case SCHED_TYPE_DAILY:
case SCHED_TYPE_WEEKLY:
case SCHED_TYPE_MONTHLY:
case SCHED_TYPE_ONSTART:
case SCHED_TYPE_ONLOGON:
case SCHED_TYPE_ONETIME:
if( dwIdlTimeOptCnt > 0 )
{
DISPLAY_MESSAGE(stderr ,GetResString(IDS_IDLETIME_NA));
return RETVAL_FAIL;
}
else
{
return RETVAL_SUCCESS;
}
break;
case SCHED_TYPE_ONIDLE:
if( dwIdlTimeOptCnt == 0 )
{
DISPLAY_MESSAGE(stderr,GetResString(IDS_NO_IDLETIME));
return RETVAL_FAIL;
}
lIdleTime = _tcstoul(szIdleTime,&pszStopString,BASE_TEN);
if( lstrlen( pszStopString ) || ( lIdleTime <= 0 ) || ( lIdleTime > 999 ) )
{
DISPLAY_MESSAGE(stderr,GetResString(IDS_INVALIDORNO_IDLETIME));
return RETVAL_FAIL;
}
return RETVAL_SUCCESS;
default:
break;
}
DISPLAY_MESSAGE(stderr,GetResString(IDS_INVALIDORNO_IDLETIME));
return RETVAL_FAIL;
}
/******************************************************************************
Routine Description:
This routine validates the date string.
Arguments:
[ in ] szDate : Date string
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else
RETVAL_FAIL on failure
******************************************************************************/
DWORD
ValidateDateString(LPTSTR szDate)
{
WORD dwDate = 0;
WORD dwMon = 0;
WORD dwYear = 0;
if(lstrlen(szDate) <= 0)
{
return RETVAL_FAIL;
}
if( GetDateFieldEntities(szDate, &dwDate, &dwMon, &dwYear) ) // Error
{
return RETVAL_FAIL;
}
if( ValidateDateFields(dwDate, dwMon, dwYear) )
{
return RETVAL_FAIL;
}
return RETVAL_SUCCESS; // return success if no error.
}
/******************************************************************************
Routine Description:
This routine retrives the date field entities out of the date string
Arguments:
[ in ] szDate : Date string
[ out ] pdwDate : Pointer to date value[1,2,3 ...30,31 etc]
[ out ] pdwMon : Pointer to Month value[1,2,3 ...12 etc]
[ out ] pdwYear : Pointer to year value[2000,3000 etc]
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else
RETVAL_FAIL on failure
******************************************************************************/
DWORD
GetDateFieldEntities(LPTSTR szDate, WORD* pdwDate, WORD* pdwMon, WORD* pdwYear)
{
_TCHAR strDate[MAX_STRING_LENGTH] = NULL_STRING; // Date in _TCHAR type string.
_TCHAR tDate[MAX_DATE_STR_LEN] = NULL_STRING; // Date
_TCHAR tMon[MAX_DATE_STR_LEN] = NULL_STRING; // Month
_TCHAR tYear[MAX_DATE_STR_LEN] = NULL_STRING; // Year
WORD wFormatID = 0;
if(szDate != NULL)
lstrcpy(strDate,szDate);
if(lstrlen(strDate) <= 0)
return RETVAL_FAIL; // No value specified in szDate.
if ( RETVAL_FAIL == GetDateFieldFormat( &wFormatID ))
{
return RETVAL_FAIL;
}
if ( wFormatID == 0 || wFormatID == 1 )
{
if( (lstrlen(strDate) != DATESTR_LEN) ||
(strDate[FIRST_DATESEPARATOR_POS] != DATE_SEPARATOR_CHAR)
|| (strDate[SECOND_DATESEPARATOR_POS] != DATE_SEPARATOR_CHAR) )
{
return RETVAL_FAIL;
}
}
else
{
if( (lstrlen(strDate) != DATESTR_LEN) ||
(strDate[FOURTH_DATESEPARATOR_POS] != DATE_SEPARATOR_CHAR)
|| (strDate[SEVENTH_DATESEPARATOR_POS] != DATE_SEPARATOR_CHAR) )
{
return RETVAL_FAIL;
}
}
// Get the individual date field entities using _tcstok function
// with respect to regional options.
if ( wFormatID == 0 )
{
lstrcpy(tMon, _tcstok(strDate,DATE_SEPARATOR_STR)); // Get the Month field.
if(lstrlen(tMon) > 0)
{
lstrcpy(tDate, _tcstok(NULL,DATE_SEPARATOR_STR)); // Get the date field.
lstrcpy(tYear, _tcstok(NULL,DATE_SEPARATOR_STR)); // Get the Year field.
}
}
else if ( wFormatID == 1 )
{
lstrcpy(tDate, _tcstok(strDate,DATE_SEPARATOR_STR)); // Get the Month field.
if(lstrlen(tDate) > 0)
{
lstrcpy(tMon, _tcstok(NULL,DATE_SEPARATOR_STR)); // Get the date field.
lstrcpy(tYear, _tcstok(NULL,DATE_SEPARATOR_STR)); // Get the Year field.
}
}
else
{
lstrcpy(tYear, _tcstok(strDate,DATE_SEPARATOR_STR)); // Get the Month field.
if(lstrlen(tYear) > 0)
{
lstrcpy(tMon, _tcstok(NULL,DATE_SEPARATOR_STR)); // Get the date field.
lstrcpy(tDate, _tcstok(NULL,DATE_SEPARATOR_STR)); // Get the Year field.
}
}
// Now convert string values to numeric for date validations.
LPTSTR pszStopString = NULL;
*pdwDate = (WORD)_tcstoul(tDate,&pszStopString,BASE_TEN);
if( lstrlen( pszStopString ))
return RETVAL_FAIL;
*pdwMon = (WORD)_tcstoul(tMon,&pszStopString,BASE_TEN);
if( lstrlen( pszStopString ))
return RETVAL_FAIL;
*pdwYear = (WORD)_tcstoul(tYear,&pszStopString,BASE_TEN);
if( lstrlen( pszStopString ))
return RETVAL_FAIL;
return RETVAL_SUCCESS;
}
/******************************************************************************
Routine Description:
This routine validates the date field entities
Arguments:
[ in ] dwDate : Date value[Day in a month]
[ in ] dwMon : Month constant
[ in ] dwYear : year value
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else
RETVAL_FAIL on failure
******************************************************************************/
DWORD
ValidateDateFields( DWORD dwDate, DWORD dwMon, DWORD dwYear)
{
if(dwYear < MIN_YEAR || dwYear > MAX_YEAR)
return RETVAL_FAIL;
switch(dwMon)
{
case IND_JAN:
case IND_MAR:
case IND_MAY:
case IND_JUL:
case IND_AUG:
case IND_OCT:
case IND_DEC:
if(dwDate > 0 && dwDate <= 31)
{
return RETVAL_SUCCESS;
}
break;
case IND_APR:
case IND_JUN:
case IND_SEP:
case IND_NOV:
if(dwDate > 0 && dwDate < 31)
{
return RETVAL_SUCCESS;
}
break;
case IND_FEB:
if( ((dwYear % 4) == 0) && (dwDate > 0 && dwDate <= 29) )
{
return RETVAL_SUCCESS;
}
else if( ((dwYear % 4) != 0) && (dwDate > 0 && dwDate < 29) )
{
return RETVAL_SUCCESS;
}
break;
default:
break;
}
return RETVAL_FAIL;
}
/******************************************************************************
Routine Description:
This routine validates the time specified by the user
Arguments:
[ in ] szTime : time string
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else
RETVAL_FAIL on failure
******************************************************************************/
DWORD
ValidateTimeString(LPTSTR szTime)
{
WORD dwHours = 0;
WORD dwMins = 0;
WORD dwSecs = 0 ;
// Check for the empty string value.
if(lstrlen(szTime) <= 0)
{
return RETVAL_FAIL;
}
// Get separate entities from the given time string.
if( GetTimeFieldEntities(szTime, &dwHours, &dwMins, &dwSecs) )
{
return RETVAL_FAIL;
}
// Validate the individual entities of the given time.
if( ValidateTimeFields(dwHours, dwMins, dwSecs) )
{
return RETVAL_FAIL;
}
return RETVAL_SUCCESS;
}
/******************************************************************************
Routine Description:
This routine retrieves the different fields of time
Arguments:
[ in ] szTime : Time string
[ out ] pdwHours : pointer to hours value
[ out ] pdwMins : pointer to mins value
[ out ] pdwSecs : pointer to seconds value
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else
RETVAL_FAIL on failure
******************************************************************************/
DWORD
GetTimeFieldEntities(LPTSTR szTime, WORD* pdwHours, WORD* pdwMins,
WORD* pdwSecs)
{
_TCHAR strTime[MAX_STRING_LENGTH] = NULL_STRING ; // Time in _TCHAR type string.
_TCHAR tHours[MAX_TIME_STR_LEN] = NULL_STRING ; // Date
_TCHAR tMins[MAX_TIME_STR_LEN] = NULL_STRING ; // Month
_TCHAR tSecs[MAX_TIME_STR_LEN] = NULL_STRING ; // Year
if(lstrlen(szTime) <= 0)
return RETVAL_FAIL;
lstrcpy(strTime, szTime);
if( (lstrlen(strTime) != TIMESTR_LEN) || (strTime[FIRST_TIMESEPARATOR_POS]
!= TIME_SEPARATOR_CHAR) || (strTime[SECOND_TIMESEPARATOR_POS] != TIME_SEPARATOR_CHAR) )
return RETVAL_FAIL;
// Get the individual Time field entities using _tcstok function.in the order "hh" followed by "mm" followed by "ss"
lstrcpy(tHours, _tcstok(strTime,TIME_SEPARATOR_STR)); // Get the Hours field.
if(lstrlen(tHours) > 0)
{
lstrcpy(tMins, _tcstok(NULL,TIME_SEPARATOR_STR)); // Get the Minutes field.
lstrcpy(tSecs, _tcstok(NULL,TIME_SEPARATOR_STR)); // Get the Seconds field.
}
LPTSTR pszStopString = NULL;
// Now convert string values to numeric for time validations.
*pdwHours = (WORD)_tcstoul(tHours,&pszStopString,BASE_TEN);
if( lstrlen( pszStopString ) )
return RETVAL_FAIL;
*pdwMins = (WORD)_tcstoul(tMins,&pszStopString,BASE_TEN);
if( lstrlen( pszStopString ))
return RETVAL_FAIL;
*pdwSecs = (WORD)_tcstoul(tSecs,&pszStopString,BASE_TEN);
if( lstrlen( pszStopString ))
return RETVAL_FAIL;
return RETVAL_SUCCESS;
}
/******************************************************************************
Routine Description:
This routine validates the time fields of a given time
Arguments:
[ in ] dwHours :Hours value
[ in ] dwMins :Minutes value
[ in ] dwSecs : seconds value
Return Value :
A DWORD value indicating RETVAL_SUCCESS on success else
RETVAL_FAIL on failure
******************************************************************************/
DWORD
ValidateTimeFields( DWORD dwHours, DWORD dwMins, DWORD dwSecs)
{
if ( dwHours <= HOURS_PER_DAY_MINUS_ONE )
{
if ( ( dwMins < MINUTES_PER_HOUR ) && ( dwSecs < SECS_PER_MINUTE) )
{
return RETVAL_SUCCESS;
}
else
{
return RETVAL_FAIL;
}
}
else
{
return RETVAL_FAIL;
}
}
/******************************************************************************
Routine Description:
This routine validates the time fields of a given time
Arguments:
[ in ] szDay : time string
Return Value :
A WORD value containing the day constant [TASK_SUNDAY,TASK_MONDAY etc]
******************************************************************************/
WORD
GetTaskTrigwDayForDay(LPTSTR szDay)
{
TCHAR szDayBuff[MAX_RES_STRING] = NULL_STRING;
TCHAR *token = NULL;
TCHAR seps[] = _T(" ,\n");
WORD dwRetval = 0;
if(lstrlen(szDay) != 0)
lstrcpy(szDayBuff, szDay);
if( lstrlen(szDayBuff) <= 0 )
{
return (TASK_MONDAY);//Default value
}
token = _tcstok( szDayBuff, seps );
while( token != NULL )
{
if( !(lstrcmpi(token, GetResString( IDS_DAY_MODIFIER_SUN ))) )
dwRetval |= (TASK_SUNDAY);
else if( !(lstrcmpi(token, GetResString( IDS_DAY_MODIFIER_MON ))) )
dwRetval |= (TASK_MONDAY);
else if( !(lstrcmpi(token, GetResString( IDS_DAY_MODIFIER_TUE ))) )
dwRetval |= (TASK_TUESDAY);
else if( !(lstrcmpi(token, GetResString( IDS_DAY_MODIFIER_WED ))) )
dwRetval |= (TASK_WEDNESDAY);
else if( !(lstrcmpi(token, GetResString( IDS_DAY_MODIFIER_THU ))) )
dwRetval |= (TASK_THURSDAY);
else if( !(lstrcmpi(token,GetResString( IDS_DAY_MODIFIER_FRI ))) )
dwRetval |= (TASK_FRIDAY);
else if( !(lstrcmpi(token, GetResString( IDS_DAY_MODIFIER_SAT ))) )
dwRetval |= (TASK_SATURDAY);
else if( !(lstrcmpi(token, ASTERIX)) )
return (TASK_SUNDAY | TASK_MONDAY | TASK_TUESDAY | TASK_WEDNESDAY |
TASK_THURSDAY | TASK_FRIDAY | TASK_SATURDAY);
else
return 0;
token = _tcstok( NULL, seps );
}
return dwRetval;
}
/******************************************************************************
Routine Description:
This routine validates the time fields of a given time
Arguments:
[ in ] szMonth : Month string
Return Value :
A WORD value containing the Month constant
[TASK_JANUARY,TASK_FEBRUARY etc]
******************************************************************************/
WORD
GetTaskTrigwMonthForMonth(LPTSTR szMonth)
{
TCHAR *token = NULL;
WORD dwRetval = 0;
TCHAR strMon[MAX_TOKENS_LENGTH] = NULL_STRING;
TCHAR seps[] = _T(" ,\n");
if( lstrlen(szMonth) <= 0 )
{
return (TASK_JANUARY | TASK_FEBRUARY | TASK_MARCH | TASK_APRIL | TASK_MAY | TASK_JUNE |
TASK_JULY | TASK_AUGUST | TASK_SEPTEMBER | TASK_OCTOBER
| TASK_NOVEMBER | TASK_DECEMBER );
}
lstrcpy(strMon, szMonth);
token = _tcstok( szMonth, seps );
while( token != NULL )
{
if( !(lstrcmpi(token, ASTERIX)) )
return (TASK_JANUARY | TASK_FEBRUARY | TASK_MARCH | TASK_APRIL
| TASK_MAY | TASK_JUNE | TASK_JULY | TASK_AUGUST | TASK_SEPTEMBER | TASK_OCTOBER
| TASK_NOVEMBER | TASK_DECEMBER );
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_JAN ))) )
dwRetval |= (TASK_JANUARY);
else if( !(lstrcmpi(token,GetResString( IDS_MONTH_MODIFIER_FEB ))) )
dwRetval |= (TASK_FEBRUARY);
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_MAR ))) )
dwRetval |= (TASK_MARCH);
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_APR ))) )
dwRetval |= (TASK_APRIL);
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_MAY ))) )
dwRetval |= (TASK_MAY);
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_JUN ))) )
dwRetval |= (TASK_JUNE);
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_JUL ))) )
dwRetval |= (TASK_JULY);
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_AUG ))) )
dwRetval |= (TASK_AUGUST);
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_SEP ))) )
dwRetval |= (TASK_SEPTEMBER);
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_OCT ))) )
dwRetval |= (TASK_OCTOBER);
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_NOV ))) )
dwRetval |= (TASK_NOVEMBER);
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_DEC ))) )
dwRetval |= (TASK_DECEMBER);
else
return 0;
token = _tcstok( NULL, seps );
}
return dwRetval;
}
/******************************************************************************
Routine Description:
This routine returns the corresponding month flag
Arguments:
[ in ] dwMonthId : Month index
Return Value :
A WORD value containing the Month constant
[TASK_JANUARY,TASK_FEBRUARY etc]
******************************************************************************/
WORD
GetMonthId(DWORD dwMonthId)
{
DWORD dwMonthsArr[] = {TASK_JANUARY,TASK_FEBRUARY ,TASK_MARCH ,TASK_APRIL ,
TASK_MAY ,TASK_JUNE ,TASK_JULY ,TASK_AUGUST,
TASK_SEPTEMBER ,TASK_OCTOBER ,TASK_NOVEMBER ,TASK_DECEMBER } ;
DWORD wMonthFlags = 0;
DWORD dwMod = 0;
dwMod = dwMonthId - 1;
while(dwMod < 12)
{
wMonthFlags |= dwMonthsArr[dwMod];
dwMod = dwMod + dwMonthId;
}
return (WORD)wMonthFlags;
}
/******************************************************************************
Routine Description:
This routine returns the maximum Last day in the months specifed
Arguments:
[ in ] szMonths : string containing months specified by user
[ in ] wStartYear : string containing start year
Return Value :
A DWORD value specifying the maximum last day in the specified months
******************************************************************************/
DWORD GetNumDaysInaMonth(TCHAR* szMonths, WORD wStartYear)
{
DWORD dwDays = 31;//max.no of days in a month
BOOL bMaxDays = FALSE;//if any of the months have 31 then days of value 31 is returned
if( ( lstrlen(szMonths) == 0 ) || ( lstrcmpi(szMonths,ASTERIX) == 0 ) )
return dwDays; //All months[default]
TCHAR *token = NULL;
TCHAR strMon[MAX_MONTH_STR_LEN] = NULL_STRING;
TCHAR seps[] = _T(" ,\n");
lstrcpy(strMon, szMonths);
token = _tcstok( strMon, seps );
while( token != NULL )
{
if( !(lstrcmpi(token,GetResString( IDS_MONTH_MODIFIER_FEB ))) )
{
if( ( (wStartYear % 400) == 0) ||
( ( (wStartYear % 4) == 0) &&
( (wStartYear % 100) != 0) ) )
{
dwDays = 29;
}
else
{
dwDays = 28;
}
}
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_JAN ))) )
{
bMaxDays = TRUE;
}
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_MAR ))) )
{
bMaxDays = TRUE;
}
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_MAY ))) )
{
bMaxDays = TRUE;
}
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_JUL ))) )
{
bMaxDays = TRUE;
}
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_AUG ))) )
{
bMaxDays = TRUE;
}
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_OCT ))) )
{
bMaxDays = TRUE;
}
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_DEC ))) )
{
bMaxDays = TRUE;
}
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_APR ))) )
{
dwDays = 30;
}
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_JUN ))) )
{
dwDays = 30;
}
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_SEP ))) )
{
dwDays = 30;
}
else if( !(lstrcmpi(token, GetResString( IDS_MONTH_MODIFIER_NOV ))) )
{
dwDays = 30;
}
token = _tcstok( NULL, seps );
}
if (bMaxDays == TRUE)
return 31;
else
return dwDays;
}
/******************************************************************************
Routine Description:
This routine checks the validates the taskname of the task to be created.
Arguments:
[ in ] pszJobName : Pointer to the job[task] name
Return Value :
If valid task name then TRUE else FALSE
******************************************************************************/
BOOL VerifyJobName(_TCHAR* pszJobName)
{
_TCHAR szTokens[] = {_T('<'),_T('>'),_T(':'),_T('/'),_T('\\'),_T('|')};
if( _tcspbrk(pszJobName,szTokens) == NULL)
return TRUE;
else
return FALSE;
}
/******************************************************************************
Routine Description:
This routine gets the date format value with respective to regional options.
Arguments:
[ out ] pdwFormat : Date format value.
Return Value :
Returns RETVAL_FAIL on failure and RETVAL_SUCCESS on success.
******************************************************************************/
DWORD GetDateFieldFormat(WORD* pwFormat)
{
LCID lcid;
_TCHAR szBuffer[MAX_BUF_SIZE];
//Get the user default locale in the users computer
lcid = GetUserDefaultLCID();
//Get the date format
if (GetLocaleInfo(lcid, LOCALE_IDATE, szBuffer, MAX_BUF_SIZE))
{
switch (szBuffer[0])
{
case TEXT('0'):
*pwFormat = 0;
break;
case TEXT('1'):
*pwFormat = 1;
break;
case TEXT('2'):
*pwFormat = 2;
break;
default:
return RETVAL_FAIL;
}
}
return RETVAL_SUCCESS;
}
/******************************************************************************
Routine Description:
This routine gets the date format string with respective to regional options.
Arguments:
[ out ] szFormat : Date format string.
Return Value :
Returns RETVAL_FAIL on failure and RETVAL_SUCCESS on success.
******************************************************************************/
DWORD GetDateFormatString(LPTSTR szFormat)
{
WORD wFormatID = 0;
if ( RETVAL_FAIL == GetDateFieldFormat( &wFormatID ))
{
return RETVAL_FAIL;
}
if ( wFormatID == 0 )
{
lstrcpy (szFormat, GetResString(IDS_MMDDYY_FORMAT));
}
else if ( wFormatID == 1 )
{
lstrcpy (szFormat, GetResString( IDS_DDMMYY_FORMAT));
}
else if ( wFormatID == 2 )
{
lstrcpy (szFormat, GetResString(IDS_YYMMDD_FORMAT));
}
else
{
return RETVAL_FAIL;
}
return RETVAL_SUCCESS;
}