windows-nt/Source/XPSP1/NT/com/svcdlls/trksvcs/trkwks/volcache.cxx

185 lines
4.8 KiB
C++
Raw Permalink Normal View History

2020-09-26 03:20:57 -05:00
// Copyright (c) 1996-1999 Microsoft Corporation
//+============================================================================
//
// volcache.cxx
//
// Implementation for CVolumeLocationCache. This class is used by trkwks
// to keep a cache of volid->mcid mappings.
//
//+============================================================================
#include "pch.cxx"
#pragma hdrstop
#include "trkwks.hxx"
//+----------------------------------------------------------------------------
//
// CVolumeLocationCache::Initialize
//
// Init the critsec and set the lifetime value.
//
//+----------------------------------------------------------------------------
void
CVolumeLocationCache::Initialize( DWORD dwEntryLifetimeSeconds )
{
_cs.Initialize();
_fInitialized = TRUE;
_cVols = 0;
_cftEntryLifetime = 0;
_cftEntryLifetime.IncrementSeconds( dwEntryLifetimeSeconds );
}
//+----------------------------------------------------------------------------
//
// CVolumeLocationCache::UnInitialize
//
// Free the critsec.
//
//+----------------------------------------------------------------------------
void
CVolumeLocationCache::UnInitialize()
{
if (_fInitialized)
{
_fInitialized = FALSE;
_cs.UnInitialize();
}
}
//+----------------------------------------------------------------------------
//
// CVolumeLocationCache::_FindVolume
//
// Search the cache for a volid. If it's found, return it's index in the
// cache array.
//
//+----------------------------------------------------------------------------
int
CVolumeLocationCache::_FindVolume(const CVolumeId & volid)
{
for (int i=0; i<_cVols; i++)
{
if (_vl[i].volid == volid)
{
return(i);
}
}
return(-1);
}
//+----------------------------------------------------------------------------
//
// CVolumeLocationCache::FindVolume
//
// search the cache for a volid. If found, return the machine ID it was
// last known to be on, and a bool indicating if this entry in the cache
// is old or new. If it's old and doesn't work, the caller shouldn't
// trust the cache. If it's new and doesn't work, the caller shouldn't
// bother the DC trying to find it.
//
//+----------------------------------------------------------------------------
BOOL
CVolumeLocationCache::FindVolume(const CVolumeId & volid, CMachineId * pmcid, BOOL *pfRecentEntry )
{
int i;
_cs.Enter();
i=_FindVolume(volid );
if (i != -1)
{
// We found the volume. Load the data.
CFILETIME cftNow;
*pmcid=_vl[i].mcid;
*pfRecentEntry = ( (cftNow - _vl[i].cft) <= _cftEntryLifetime );
}
_cs.Leave();
return(i != -1);
}
//+----------------------------------------------------------------------------
//
// CVolumeLocationCache::AddVolume
//
// Add a volid->mcid mapping to the cache. The entry in the cache is
// timestamped so we know how trustworthy it is. If the entry is already
// in the cache, we just update the timestamp. In either case, this entry
// will be at the front of the array.
//
//+----------------------------------------------------------------------------
void
CVolumeLocationCache::AddVolume(const CVolumeId & volid, const CMachineId & mcid)
{
int i;
if( CVolumeId() == volid )
return;
_cs.Enter();
i = _FindVolume(volid);
if (i == -1)
{
// This volid isn't already in the cache. Shift back the existing
// entries so that this entry can be in front.
BOOL fFull = _cVols >= MAX_CACHED_VOLUME_LOCATIONS;
memcpy(&_vl[1], &_vl[0], sizeof(VolumeLocation)*(fFull ? _cVols-1 : _cVols));
if (!fFull)
{
_cVols++;
}
}
else
{
// Move the prior part of the array back, overwriting
// the this entry. That way we can put this entry
// at the front.
memcpy(&_vl[1], &_vl[0], sizeof(VolumeLocation)*i);
}
// Put this entry at the front of the array.
_vl[0].volid = volid;
_vl[0].mcid = mcid;
_vl[0].cft = CFILETIME();
#if DBG
for (i=0; i<_cVols; i++)
{
TrkLog((TRKDBG_VOLCACHE,
TEXT("%02d: %s -> %s") MCID_BYTE_FORMAT_STRING,
i,
(const TCHAR*)CDebugString(_vl[i].volid),
(const TCHAR*)CDebugString(_vl[i].mcid),
((BYTE*)&(_vl[i].mcid))[0], ((BYTE*)&(_vl[i].mcid))[1], ((BYTE*)&(_vl[i].mcid))[2], ((BYTE*)&(_vl[i].mcid))[3],
((BYTE*)&(_vl[i].mcid))[4], ((BYTE*)&(_vl[i].mcid))[5], ((BYTE*)&(_vl[i].mcid))[6], ((BYTE*)&(_vl[i].mcid))[7],
((BYTE*)&(_vl[i].mcid))[8], ((BYTE*)&(_vl[i].mcid))[9], ((BYTE*)&(_vl[i].mcid))[10], ((BYTE*)&(_vl[i].mcid))[11],
((BYTE*)&(_vl[i].mcid))[12], ((BYTE*)&(_vl[i].mcid))[13], ((BYTE*)&(_vl[i].mcid))[14], ((BYTE*)&(_vl[i].mcid))[15] ));
}
#endif
_cs.Leave();
}