NT4/private/nw/convert/nwconv/loghours.c

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2001-01-01 00:00:00 +01:00
/*++
Copyright (c) 1987-1993 Microsoft Corporation
Module Name:
loghours.c
Abstract:
Private routines to support rotation of logon hours between local time
and GMT time.
Author:
Cliff Van Dyke (cliffv) 16-Mar-93
Environment:
User mode only.
Contains NT-specific code.
Requires ANSI C extensions: slash-slash comments, long external names.
Revision History:
--*/
#include <nt.h>
#include <ntrtl.h>
#include <nturtl.h>
#include <windef.h>
#include <winbase.h>
#include <limits.h>
#include <math.h>
#include <lmcons.h>
#include <lmaccess.h>
#include <loghours.h>
BOOLEAN
NetpRotateLogonHoursPhase1(
IN BOOL ConvertToGmt,
OUT PULONG RotateCount
)
/*++
Routine Description:
Determine the amount to rotate the logon hours by to convert to/from GMT
Arguments:
ConvertToGmt -
True to convert the logon hours from local time to GMT relative
False to convert the logon hours from GMT relative to local time
RotateCount - Returns the number of bits to shift by.
Return Value:
TRUE if the RotateCount could be computed
FALSE if a RotateCount could not be computed
--*/
{
RTL_TIME_ZONE_INFORMATION tzi;
LONG BiasInHours;
NTSTATUS Status;
//
// Get the timezone data from the registry
//
Status = RtlQueryTimeZoneInformation( &tzi );
if ( !NT_SUCCESS(Status) ) {
return FALSE;
}
//
// Compute the amount to rotate the logon hours by
//
// Round the bias in minutes to the closest bias in hours.
// Take into consideration that Bias can be negative.
// Do this by forcing the Bias to be positive, rounding,
// then adjusting it back negative again.
//
ASSERT( tzi.Bias > -(24*60) );
BiasInHours = ((tzi.Bias + (24*60) + 30)/60) - 24;
if ( !ConvertToGmt ) {
BiasInHours = - BiasInHours;
}
*RotateCount = BiasInHours;
return TRUE;
}
BOOLEAN
NetpRotateLogonHoursPhase2(
IN PBYTE LogonHours,
IN DWORD UnitsPerWeek,
IN LONG RotateCount
)
/*++
Routine Description:
Rotate the LogonHours bit mask by the required amount.
Arguments:
LogonHours - Pointer to LogonHour bit mask
UnitsPerWeek - Number of bits in the bit mask. Must be UNITS_PER_WEEK (168).
RotateCount - Number of bits to rotate by. Must be between 31 and -31.
Negative means to rotate left.
Positive means to rotate right.
Return Value:
TRUE if the rotation succeeded.
FALSE if a parameter was out of range
--*/
{
//
// Useful constants
//
#define DWORDS_PER_WEEK ((UNITS_PER_WEEK+31)/32)
#define BYTES_PER_WEEK (UNITS_PER_WEEK/8)
DWORD AlignedLogonHours[DWORDS_PER_WEEK+1];
LONG i;
BOOLEAN RotateLeft;
//
// Ensure there are 8 bits per byte,
// 32 bits per DWORD and
// units per week is even number of bytes.
//
ASSERT( CHAR_BIT == 8 );
ASSERT( sizeof(DWORD) * CHAR_BIT == 32 );
ASSERT( UNITS_PER_WEEK/8*8 == UNITS_PER_WEEK );
//
// Validate the input parameters
//
if ( UnitsPerWeek != UNITS_PER_WEEK ) {
ASSERT( UnitsPerWeek == UNITS_PER_WEEK );
return FALSE;
}
if ( RotateCount == 0 ) {
return TRUE;
}
RotateLeft = (RotateCount < 0);
RotateCount = labs( RotateCount );
if ( RotateCount > 31 ) {
ASSERT ( RotateCount <= 31 );
return FALSE;
}
//
// Do the left rotate.
//
if (RotateLeft) {
//
// Copy the logon hours to a DWORD aligned buffer.
//
// Duplicate the first dword at the end of the buffer to make
// the rotation code trivial.
//
RtlCopyMemory(AlignedLogonHours, LogonHours, BYTES_PER_WEEK );
RtlCopyMemory( ((PBYTE)AlignedLogonHours)+BYTES_PER_WEEK,
LogonHours,
sizeof(DWORD) );
//
// Actually rotate the data.
//
for ( i=0; i < DWORDS_PER_WEEK; i++ ) {
AlignedLogonHours[i] =
(AlignedLogonHours[i] >> RotateCount) |
(AlignedLogonHours[i+1] << (32-RotateCount));
}
//
// Copy the logon hours back to the input buffer.
//
RtlCopyMemory( LogonHours, AlignedLogonHours, BYTES_PER_WEEK );
//
// Do the right rotate.
//
} else {
//
// Copy the logon hours to a DWORD aligned buffer.
//
// Duplicate the last DWORD at the front of the buffer to make
// the rotation code trivial.
//
RtlCopyMemory( &AlignedLogonHours[1], LogonHours, BYTES_PER_WEEK );
RtlCopyMemory( AlignedLogonHours,
&LogonHours[BYTES_PER_WEEK-4],
sizeof(DWORD));
//
// Actually rotate the data.
//
for ( i=DWORDS_PER_WEEK-1; i>=0; i-- ) {
AlignedLogonHours[i+1] =
(AlignedLogonHours[i+1] << RotateCount) |
(AlignedLogonHours[i] >> (32-RotateCount));
}
//
// Copy the logon hours back to the input buffer.
//
RtlCopyMemory( LogonHours, &AlignedLogonHours[1], BYTES_PER_WEEK );
}
//
// Done
//
return TRUE;
}
BOOLEAN
NetpRotateLogonHours(
IN PBYTE LogonHours,
IN DWORD UnitsPerWeek,
IN BOOL ConvertToGmt
)
/*++
Routine Description:
Rotate the LogonHours bit mask to/from GMT relative time.
Arguments:
LogonHours - Pointer to LogonHour bit mask
UnitsPerWeek - Number of bits in the bit mask. Must be UNITS_PER_WEEK (168).
ConvertToGmt -
True to convert the logon hours from local time to GMT relative
False to convert the logon hours from GMT relative to local time
Return Value:
TRUE if the rotation succeeded.
FALSE if a parameter was out of range
--*/
{
ULONG RotateCount;
//
// Break the functionality into two phases so that if the caller is doing
// this multiple time, he just calls Phase 1 once and Phase 2 multiple
// times.
//
if ( !NetpRotateLogonHoursPhase1( ConvertToGmt, &RotateCount ) ) {
return FALSE;
}
return NetpRotateLogonHoursPhase2( LogonHours, UnitsPerWeek, RotateCount );
}