windows-nt/Source/XPSP1/NT/inetsrv/query/cicat/vmap.cxx

1471 lines
42 KiB
C++
Raw Permalink Normal View History

2020-09-26 03:20:57 -05:00
//+---------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1991 - 1999.
//
// File: VMap.cxx
//
// Contents: Virtual <--> physical path map.
//
// Classes: CVMap
//
// History: 05-Feb-96 KyleP Created
//
// Notes: Automatic and manual roots have the following relationship.
//
// 1. If a root is purely manual (e.g. not in Gibraltar), then
// addition is only by the user, and deletion really deletes
// the root. A placeholder is not maintained in the vroot
// list.
//
// 2. If a root is purely automatic, then it is always used,
// and is added and removed in complete sync with Gibraltar.
//
// 3. If a root was manual and was automatically added, the 'in-use'
// state from pure-manual mode is maintained.
//
// 4. If a root was automatic and was manually added, it is
// always set to 'in-use'.
//
// 5. If a root was both manual and automatic and automaticlly
// deleted the deletion occurs. Period.
//
// 6. If a root was both manual and automatic and manually deleted,
// the root is kept as an out-of-use placeholder.
//
//
//----------------------------------------------------------------------------
#include <pch.cxx>
#pragma hdrstop
#include <rcstxact.hxx>
#include <rcstrmit.hxx>
#include <vmap.hxx>
#include <funypath.hxx>
//+-------------------------------------------------------------------------
//
// Member: CVMapDesc::Init, public
//
// Synopsis: Initialize virtual root descriptor
//
// Arguments: [pVRoot] -- Virtual root
// [ccVRoot] -- Size in chars of [pwcVRoot]
// [pPRoot] -- Physical root
// [ccPRoot] -- Size in chars of [pwcPRoot]
// [idParent] -- Link to parent
// [fAutomatic] -- TRUE for root tied to IIS
// [eType] -- VRoot type
// [fIsIndexed] -- TRUE if the item should be indexed (used)
// [fNonIndexedVDir] -- TRUE if a non-indexed virtual directory
//
// History: 11-Feb-96 KyleP Created
// 24 Nov 99 KLam Don't pre-reference zero length strings.
//
//--------------------------------------------------------------------------
void CVMapDesc::Init( WCHAR const * pVRoot,
ULONG ccVRoot,
WCHAR const * pPRoot,
ULONG ccPRoot,
ULONG idParent,
BOOL fAutomatic,
CiVRootTypeEnum eType,
BOOL fIsIndexed,
BOOL fNonIndexedVDir )
{
Win4Assert( ccVRoot < MAX_PATH );
Win4Assert( ccPRoot < MAX_PATH );
RtlCopyMemory( _wcVScope, pVRoot, ccVRoot * sizeof(WCHAR ) );
RtlCopyMemory( _wcPScope, pPRoot, ccPRoot * sizeof(WCHAR ) );
_ccVScope = ccVRoot;
_ccPScope = ccPRoot;
if ( (0 == _ccVScope) || (_wcVScope[_ccVScope - 1] != L'\\') )
_wcVScope[_ccVScope++] = L'\\';
if ( (0 == _ccPScope) || (_wcPScope[_ccPScope - 1] != L'\\') )
_wcPScope[_ccPScope++] = L'\\';
// null-terminate these for readability
_wcVScope[ _ccVScope ] = 0;
_wcPScope[ _ccPScope ] = 0;
_idParent = idParent;
if ( fAutomatic )
_Type = PCatalog::AutomaticRoot;
else
_Type = PCatalog::ManualRoot;
if ( fIsIndexed )
_Type |= PCatalog::UsedRoot;
if ( fNonIndexedVDir )
_Type |= PCatalog::NonIndexedVDir;
#if CIDBG == 1
if ( fNonIndexedVDir )
Win4Assert( !fIsIndexed );
#endif // CIDBG == 1
if ( NNTPVRoot == eType )
_Type |= PCatalog::NNTPRoot;
else if ( IMAPVRoot == eType )
_Type |= PCatalog::IMAPRoot;
} //Init
//+-------------------------------------------------------------------------
//
// Member: CVMapDesc::IsVirtualMatch, public
//
// Synopsis: Virtual scope test
//
// Arguments: [pVPath] -- Virtual path
// [ccVPath] -- Size in chars of [pVPath]
//
// Returns: TRUE if [pVPath] is an exact match (sans slash)
//
// History: 11-Feb-96 KyleP Created
// 24 Nov 99 KLam Don't pre-reference zero length strings.
//
//--------------------------------------------------------------------------
BOOL CVMapDesc::IsVirtualMatch( WCHAR const * pVPath, unsigned ccVPath ) const
{
//
// Adjust for possible lack of terminating backslash.
//
unsigned ccComp;
if ( (0 == ccVPath) || (pVPath[ccVPath-1] != L'\\') )
ccComp = _ccVScope - 1;
else
ccComp = _ccVScope;
//
// Compare strings.
//
if ( ccComp == ccVPath )
return RtlEqualMemory( _wcVScope, pVPath, ccVPath * sizeof(WCHAR) );
else
return FALSE;
}
//+-------------------------------------------------------------------------
//
// Member: CVMapDesc::IsPhysicalMatch, public
//
// Synopsis: Physical scope test
//
// Arguments: [pPPath] -- Virtual path
// [ccPPath] -- Size in chars of [pPPath]
//
// Returns: TRUE if [pPPath] is an exact match (sans slash)
//
// History: 11-Feb-96 KyleP Created
// 24 Nov 99 KLam Don't pre-reference zero length strings.
//
//--------------------------------------------------------------------------
BOOL CVMapDesc::IsPhysicalMatch( WCHAR const * pPPath, unsigned ccPPath ) const
{
//
// Adjust for possible lack of terminating backslash.
//
unsigned ccComp;
if ( (0 == ccPPath) || (pPPath[ccPPath-1] != L'\\') )
ccComp = _ccPScope - 1;
else
ccComp = _ccPScope;
//
// Compare strings.
//
if ( ccComp == ccPPath )
return RtlEqualMemory( _wcPScope, pPPath, ccPPath * sizeof(WCHAR) );
else
return FALSE;
}
//+-------------------------------------------------------------------------
//
// Member: CVMap::CVMap, public
//
// Synopsis: Null ctor for 2-phase initialization
//
// History: 11-Feb-96 KyleP Created
//
//--------------------------------------------------------------------------
CVMap::CVMap()
{
END_CONSTRUCTION( CVMap );
}
void CVMap::Empty()
{
delete _xrsoMap.Acquire();
_aMap.Clear();
}
//+-------------------------------------------------------------------------
//
// Member: CVMap::Init, public
//
// Synopsis: 2nd half of 2-phase initialization
//
// Arguments: [pobj] -- Recoverable storage for descriptors
//
// Returns: TRUE if map was shut down cleanly
//
// History: 11-Feb-96 KyleP Created
//
//--------------------------------------------------------------------------
BOOL CVMap::Init( PRcovStorageObj * pobj )
{
_xrsoMap.Set( pobj );
//
// Initialize array.
//
CRcovStorageHdr & hdr = _xrsoMap->GetHeader();
struct CRcovUserHdr data;
hdr.GetUserHdr( hdr.GetPrimary(), data );
RtlCopyMemory( &_fDirty, &data._abHdr, sizeof(_fDirty) );
//
// Load records into memory.
//
CRcovStrmReadTrans xact( _xrsoMap.GetReference() );
CRcovStrmReadIter iter( xact, sizeof( CVMapDesc ) );
unsigned i = 0;
while ( !iter.AtEnd() )
{
iter.GetRec( &_aMap[i] );
i++;
}
if (_aMap.Count() != hdr.GetCount( hdr.GetPrimary() ) )
{
ciDebugOut(( DEB_ERROR,
"_aMap.Count() == %d, hdr.GetCount(...) = %d\n",
_aMap.Count(), hdr.GetCount( hdr.GetPrimary() ) ));
}
Win4Assert( _aMap.Count() == hdr.GetCount( hdr.GetPrimary() ) );
RecomputeNonIndexedInfo();
DumpVMap();
return !_fDirty;
} //Init
//+-------------------------------------------------------------------------
//
// Member: CVMap::RecomputeNonIndexedInfo, private
//
// Synopsis: Rebuilds _aExcludeParent when vroot info changes
//
// History: 1-Apr-97 dlee Created
//
//--------------------------------------------------------------------------
void CVMap::RecomputeNonIndexedInfo()
{
// blow away existing info and create it all again
_aExcludeParent.Clear();
for ( unsigned i = 0; i < _aMap.Count(); i++ )
_aExcludeParent[i] = INVALID_VMAP_INDEX;
// look for non-indexed vdirs, and note the vroot that matches
// both virtual and physical paths.
for ( i = 0; i < _aMap.Count(); i++ )
{
if ( !_aMap[i].IsFree() &&
_aMap[i].IsNonIndexedVDir() )
{
unsigned int ccBestMatch = 0;
for ( unsigned r = 0; r < _aMap.Count(); r++ )
{
// if 'i' is in both virtual and physical paths of 'r',
// make 'r' the exclude parent of 'i'.
if ( i != r &&
!_aMap[r].IsFree() &&
!_aMap[r].IsNonIndexedVDir() )
{
// -1 since we don't need to match on the '\' at the end
if ( _aMap[r].IsInPhysicalScope( _aMap[i].PhysicalPath(),
_aMap[i].PhysicalLength() - 1 ) )
{
if ( ( _aMap[r].VirtualLength() < _aMap[i].VirtualLength() ) &&
( _aMap[r].IsVirtualMatch( _aMap[i].VirtualPath(),
_aMap[r].VirtualLength() ) ) )
{
ciDebugOut(( DEB_ITRACE, "nivd %ws found match %ws, old cc %d\n",
_aMap[i].VirtualPath(),
_aMap[r].VirtualPath(),
ccBestMatch ));
if ( _aMap[r].VirtualLength() > ccBestMatch )
{
_aExcludeParent[i] = r;
ccBestMatch = _aMap[r].VirtualLength();
}
}
}
}
}
}
}
} //RecomputeNonIndexedInfo
//+-------------------------------------------------------------------------
//
// Member: CVMap::DumpVMap, private
//
// Synopsis: Dumps the current state of the vmap table
//
// History: 1-Apr-97 dlee Created
//
//--------------------------------------------------------------------------
void CVMap::DumpVMap()
{
#if CIDBG == 1
for ( unsigned i = 0; i < _aMap.Count(); i++ )
{
ciDebugOut(( DEB_ITRACE,
"vmap 0x%x, isfree %d parent 0x%x\n",
i, _aMap[i].IsFree(), _aMap[i].Parent() ));
if ( !_aMap[i].IsFree() )
ciDebugOut(( DEB_ITRACE,
" expar: 0x%x, nonivdir %d, inuse %d, manual %d, auto %d, nntp %d, imap %d, vpath '%ws', ppath '%ws'\n",
_aExcludeParent[i],
_aMap[i].IsNonIndexedVDir(),
_aMap[i].IsInUse(),
_aMap[i].IsManual(),
_aMap[i].IsAutomatic(),
_aMap[i].IsNNTP(),
_aMap[i].IsIMAP(),
_aMap[i].VirtualPath(),
_aMap[i].PhysicalPath() ));
}
#endif // CIDBG
} //DumpVMap
//+-------------------------------------------------------------------------
//
// Member: CVMap::Add, public
//
// Synopsis: Add new virtual/physical mapping
//
// Arguments: [vroot] -- New virtual root
// [root] -- Place in physical hierarchy
// [fAutomatic] -- TRUE for root tied to Gibraltar
// [idNew] -- Id of new root returned here
// [eType] -- vroot type
// [fVRoot] -- TRUE if a vroot, not a vdir
// [fIsIndexed] -- TRUE if it should be indexed, FALSE otherwise
//
// Returns: TRUE if scope was added or changed
//
// History: 11-Feb-96 KyleP Created
//
//--------------------------------------------------------------------------
BOOL CVMap::Add( WCHAR const * vroot,
WCHAR const * root,
BOOL fAutomatic,
ULONG & idNew,
CiVRootTypeEnum eType,
BOOL fVRoot,
BOOL fIsIndexed )
{
Win4Assert( eType == W3VRoot ||
eType == NNTPVRoot ||
eType == IMAPVRoot );
Win4Assert( !fIsIndexed || fVRoot );
CLock lock(_mutex);
unsigned ccVRoot = wcslen(vroot);
unsigned ccPRoot = wcslen(root);
Win4Assert( ccVRoot < MAX_PATH );
Win4Assert( ccPRoot < MAX_PATH );
ULONG idParent = INVALID_VMAP_INDEX;
ULONG ccParent = 0;
idNew = INVALID_VMAP_INDEX;
BOOL fWasInUse = FALSE;
BOOL fWasAutomatic = FALSE;
BOOL fWasManual = FALSE;
BOOL fPRootChanged = TRUE;
BOOL fWasNonIndexedVDir = FALSE;
ULONG idOldParent = INVALID_VMAP_INDEX;
//
// Find virtual parent.
//
for ( unsigned i = 0; i < _aMap.Count(); i++ )
{
//
// Is the new entry already in the list?
//
if ( !_aMap[i].IsFree() )
{
//
// Should we even consider this entry?
//
if ( (W3VRoot == eType) && !_aMap[i].IsW3() )
continue;
if ( (NNTPVRoot == eType) && !_aMap[i].IsNNTP() )
continue;
if ( (IMAPVRoot == eType) && !_aMap[i].IsIMAP() )
continue;
if ( _aMap[i].IsVirtualMatch( vroot, ccVRoot ) )
{
//
// Collect stats:
//
fWasInUse = _aMap[i].IsInUse();
fWasAutomatic = _aMap[i].IsAutomatic();
fWasManual = _aMap[i].IsManual();
fWasNonIndexedVDir = _aMap[i].IsNonIndexedVDir();
fPRootChanged = !_aMap[i].IsPhysicalMatch( root, ccPRoot );
idOldParent = _aMap[i].Parent();
ciDebugOut(( DEB_ITRACE,
"vroot '%ws', fWasInUse %d, fIsIndexed %d, fWasNonIndexedVDir %d\n",
vroot, fWasInUse, fIsIndexed, fWasNonIndexedVDir ));
//
// If there is no change, we can return w/o doing anything.
//
if ( ( ( fWasInUse && fIsIndexed ) || ( !fWasInUse && !fIsIndexed ) ) &&
( (fWasNonIndexedVDir && !fVRoot) || (!fWasNonIndexedVDir && fVRoot) ) &&
( (fAutomatic && fWasAutomatic) || (!fAutomatic && fWasManual) ) &&
!fPRootChanged )
{
ciDebugOut(( DEB_ITRACE, "no change for '%ws'\n", vroot ));
return FALSE;
}
else
{
ciDebugOut(( DEB_ITRACE, "modified vroot entry for '%ws'\n", vroot ));
idNew = i;
break;
}
}
//
// Is this a longer physical path match?
//
unsigned ccMatch = _aMap[i].PhysicalMatchLen( root );
if ( ccMatch > ccParent && ccMatch <= ccPRoot )
{
ccParent = ccMatch;
idParent = i;
}
}
else
{
idNew = i;
continue;
}
}
//
// Add new root.
//
CRcovStorageHdr & hdr = _xrsoMap->GetHeader();
CRcovStrmWriteTrans xact( _xrsoMap.GetReference() );
CRcovStrmWriteIter iter( xact, sizeof(CVMapDesc) );
Win4Assert( _aMap.Count() == hdr.GetCount( hdr.GetPrimary() ) );
//
// This may be a new record.
//
BOOL fAppend;
if ( idNew == INVALID_VMAP_INDEX )
{
ciDebugOut(( DEB_ITRACE, "new vroot entry for '%ws'\n", vroot ));
idNew = _aMap.Count();
fAppend = TRUE;
}
else
fAppend = FALSE;
_aMap[idNew].Init( vroot,
ccVRoot,
root,
ccPRoot,
idParent,
fAutomatic,
eType,
fIsIndexed,
!fVRoot );
//
// This may have been an upgrade (not a new root), so add back previous state.
//
if ( fWasAutomatic )
_aMap[idNew].SetAutomatic();
if ( fWasManual )
_aMap[idNew].SetManual();
//
// Write out changes.
//
if ( fAppend )
iter.AppendRec( &_aMap[idNew] );
else
iter.SetRec( &_aMap[idNew], idNew );
//
// Look for roots that used to point at parent. They may need to be changed.
// Only bother if root was not previously in use.
//
Win4Assert( !_fDirty );
_fDirty = (fWasInUse != _aMap[idNew].IsInUse() || fPRootChanged);
//
// Put this root in the hierarchy.
//
if ( _fDirty && fVRoot )
{
for ( i = 0; i < _aMap.Count(); i++ )
{
if ( _aMap[i].IsFree() || !_aMap[i].IsInUse() )
continue;
//
// If physical root changed, then we need to adjust a lot of parent pointers.
// Stage one is equivalent to removing the old root.
//
if ( fPRootChanged && _aMap[i].Parent() == idNew )
{
Win4Assert( i != idNew );
ciDebugOut(( DEB_ITRACE, "VRoot %d has new parent %d\n", i, idNew ));
_aMap[i].SetParent( idOldParent );
iter.SetRec( &_aMap[i], i );
}
if ( _aMap[i].Parent() != idParent )
continue;
if ( i == idNew )
continue;
//
// Is this a longer physical path match?
//
unsigned ccMatch = _aMap[i].PhysicalMatchLen( root );
if ( ccMatch >= ccPRoot )
{
ciDebugOut(( DEB_ITRACE, "VRoot %d has new parent %d\n", i, idNew ));
_aMap[i].SetParent( idNew );
iter.SetRec( &_aMap[i], i );
}
}
}
//
// Finish transaction
//
struct CRcovUserHdr data;
RtlCopyMemory( &data._abHdr, &_fDirty, sizeof(_fDirty) );
hdr.SetUserHdr( hdr.GetBackup(), data );
hdr.SetCount( hdr.GetBackup(), _aMap.Count() );
xact.Commit();
RecomputeNonIndexedInfo();
DumpVMap();
return _fDirty;
} //Add
//+-------------------------------------------------------------------------
//
// Member: CVMap::Remove, public
//
// Synopsis: Remove virtual/physical mapping
//
// Arguments: [vroot] -- New virtual root
// [fOnlyIfAutomatic] -- If TRUE, then a manual root will not
// be removed
// [idOld] -- Id which was removed
// [idNew] -- Id which replaces [idOld] (farther up physical path)
// [eType] -- VRoot type
// [fVRoot] -- TRUE if a vroot, FALSE if a vdir
//
// Returns: TRUE if scope was removed
//
// History: 11-Feb-96 KyleP Created
//
//--------------------------------------------------------------------------
BOOL CVMap::Remove( WCHAR const * vroot,
BOOL fOnlyIfAutomatic,
ULONG & idOld,
ULONG & idNew,
CiVRootTypeEnum eType,
BOOL fVRoot )
{
Win4Assert( eType == W3VRoot ||
eType == NNTPVRoot ||
eType == IMAPVRoot );
CLock lock(_mutex);
unsigned ccVRoot = wcslen(vroot);
//
// Find id of root.
//
idOld = INVALID_VMAP_INDEX;
for ( unsigned i = 0; i < _aMap.Count(); i++ )
{
BOOL fSameType = ( ( ( W3VRoot == eType ) && _aMap[i].IsW3() ) ||
( ( NNTPVRoot == eType ) && _aMap[i].IsNNTP() ) ||
( ( IMAPVRoot == eType ) && _aMap[i].IsIMAP() ) );
if ( !_aMap[i].IsFree() &&
fSameType &&
_aMap[i].IsVirtualMatch( vroot, ccVRoot ) )
{
idOld = i;
break;
}
}
if ( idOld == INVALID_VMAP_INDEX )
return FALSE;
BOOL fWasInUse = _aMap[idOld].IsInUse();
//
// Turn off either automatic bit or manual bit.
//
if ( fOnlyIfAutomatic )
{
//
// When a root is deleted by Gibraltar, it is *really* deleted.
//
_aMap[idOld].ClearAutomatic();
_aMap[idOld].ClearManual();
_aMap[idOld].ClearInUse();
}
else
{
//
// If this is an automatic root, then put the
// root under manual control (to keep it deleted),
// otherwise clear the manual flag to free up the entry.
//
if ( _aMap[idOld].IsAutomatic() )
_aMap[idOld].SetManual();
else
_aMap[idOld].ClearManual();
_aMap[idOld].ClearInUse();
}
idNew = _aMap[i].Parent();
//
// Make persistent changes
//
CRcovStorageHdr & hdr = _xrsoMap->GetHeader();
CRcovStrmWriteTrans xact( _xrsoMap.GetReference() );
CRcovStrmWriteIter iter( xact, sizeof(CVMapDesc) );
if ( !_aMap[idOld].IsAutomatic() && !_aMap[idOld].IsManual() )
_aMap[idOld].Delete();
iter.SetRec( &_aMap[idOld], idOld );
//
// Look for roots that used to point here. They will need to be changed.
// Change *only* if we really decided we're not tracking this root.
// Only bother if we really stopped using the root.
//
# if CIDBG == 1
if( _aMap[idOld].IsFree() )
Win4Assert( !_aMap[idOld].IsInUse() );
# endif
if ( !_aMap[idOld].IsInUse() && fWasInUse )
{
for ( i = 0; i < _aMap.Count(); i++ )
{
if ( _aMap[i].IsFree() )
continue;
if ( _aMap[i].Parent() == idOld )
{
ciDebugOut(( DEB_ITRACE, "VRoot %d has new parent %d\n", i, idNew ));
_aMap[i].SetParent( idNew );
iter.SetRec( &_aMap[i], i );
}
}
}
//
// Finish transaction
//
Win4Assert( !_fDirty );
ciDebugOut(( DEB_ITRACE, "fVRoot, isinuse %d, wasinuse %d\n",
_aMap[idOld].IsInUse(), fWasInUse ));
_fDirty = (!fVRoot || !_aMap[idOld].IsInUse() && fWasInUse);
struct CRcovUserHdr data;
RtlCopyMemory( &data._abHdr, &_fDirty, sizeof(_fDirty) );
hdr.SetUserHdr( hdr.GetBackup(), data );
hdr.SetCount( hdr.GetBackup(), _aMap.Count() );
xact.Commit();
RecomputeNonIndexedInfo();
DumpVMap();
ciDebugOut(( DEB_ITRACE, "vmap::remove fDirty: %d\n", _fDirty ));
return _fDirty;
} //Remove
//+-------------------------------------------------------------------------
//
// Member: CVMap::MarkClean, public
//
// Synopsis: Used to indicate all modifications based on path
// addition/removal are complete.
//
// History: 14-Feb-96 KyleP Added header
//
//--------------------------------------------------------------------------
void CVMap::MarkClean()
{
CLock lock(_mutex);
CRcovStorageHdr & hdr = _xrsoMap->GetHeader();
CRcovStrmAppendTrans xact( _xrsoMap.GetReference() );
_fDirty = FALSE;
struct CRcovUserHdr data;
RtlCopyMemory( &data._abHdr, &_fDirty, sizeof(_fDirty) );
hdr.SetUserHdr( hdr.GetBackup(), data );
hdr.SetCount( hdr.GetBackup(), _aMap.Count() );
xact.Commit();
} //MarkClean
//+-------------------------------------------------------------------------
//
// Member: CVMap::PhysicalPathToId, private
//
// Synopsis: Given a physical path, find the virtual root that should
// be associated with it.
//
// Arguments: [path] -- Physical path
// [fNonIndexedVDirs] -- If TRUE, returns 0xffffffff or a
// non-indexed vdir. If FALSE, returns
// an indexed vroot or 0xffffffff.
//
// Returns: Id of virtual root
//
// History: 11-Feb-96 KyleP Added header
//
//--------------------------------------------------------------------------
ULONG CVMap::PhysicalPathToId(
WCHAR const * path,
BOOL fNonIndexedVDirs )
{
//
// Find virtual parent.
//
unsigned ccPath = wcslen(path);
ULONG idParent = INVALID_VMAP_INDEX;
ULONG ccParent = 0;
for ( unsigned i = 0; i < _aMap.Count(); i++ )
{
if ( _aMap[i].IsFree() ||
( !fNonIndexedVDirs && !_aMap[i].IsInUse() ) ||
( fNonIndexedVDirs && !_aMap[i].IsNonIndexedVDir() ) )
continue;
if ( !fNonIndexedVDirs )
{
BOOL fIgnore = FALSE;
for ( unsigned x = 0; x < _aExcludeParent.Count(); x++ )
{
// If 'i' is a parent that should be excluded because the
// file is in a non-indexed vdir of vroot 'i', ignore it.
if ( i == _aExcludeParent[x] )
{
Win4Assert( _aMap[x].IsNonIndexedVDir() );
if ( _aMap[x].IsInPhysicalScope( path, ccPath ) )
{
fIgnore = TRUE;
break;
}
}
}
if ( fIgnore )
continue;
}
//
// Is this a longer physical path match?
//
unsigned ccMatch = _aMap[i].PhysicalMatchLen( path );
if ( ccMatch > ccParent && ccMatch < ccPath )
{
ccParent = ccMatch;
idParent = i;
}
else if ( ccMatch > 0 && ccMatch == ccParent )
{
//
// Consider the case of multiple virtual roots pointing to the
// same place in the physical heirarchy:
//
// v0
// \
// \
// v1 -> v2 -> v3
//
// Files under v1/v2/v3 must be tagged with id v1, or we will
// not recognize v1 as a valid virtual root for the file. So
// if we happened to find v2 or v3 first, we need to swap
// roots if we can get to the old best match from the new best
// match by traversing parent links.
//
for ( unsigned id = _aMap[i].Parent();
id != INVALID_VMAP_INDEX;
id = _aMap[id].Parent() )
{
//
// Have we traversed up the tree?
//
if ( _aMap[id].PhysicalLength() < ccParent )
break;
//
// Did we find the previous parent?
//
if ( id == idParent )
break;
}
if ( id == idParent )
idParent = i;
}
}
return idParent;
} //PhysicalPathToId
//+-------------------------------------------------------------------------
//
// Member: CVMap::PhysicalPathToId, public
//
// Synopsis: Given a physical path, find the virtual root that should
// be associated with it.
//
// Arguments: [path] -- Physical path
//
// Returns: Id of virtual root
//
// History: 11-Feb-96 KyleP Added header
//
//--------------------------------------------------------------------------
ULONG CVMap::PhysicalPathToId( WCHAR const * path )
{
CLock lock(_mutex);
// first try an indexed vroot, but settle for a non-indexed-vdir
ULONG id = PhysicalPathToId( path, FALSE );
if ( INVALID_VMAP_INDEX == id )
id = PhysicalPathToId( path, TRUE );
return id;
} //PhysicalPathToId
//+-------------------------------------------------------------------------
//
// Member: CVMap::VirtualToPhysicalRoot, public
//
// Synopsis: Given a virtual path, returns corresponding physical root.
// Unlike the iterative version of this method, this version
// requires an exact match on virtual root.
//
// Arguments: [pwcVRoot] -- Virtual root
// [ccVRoot] -- Size in chars of [pwcVRoot]
// [lcaseFunnyPRoot] -- Physical root
// [ccPRoot] -- returns actual count of chars in [lcaseFunnyPRoot]
//
// Returns: TRUE if match was found.
//
// History: 11-Feb-96 KyleP Created
// 15 Mar 96 AlanW Fixed bugs in enumeration which missed
// some roots and erroneously added others.
//
//--------------------------------------------------------------------------
BOOL CVMap::VirtualToPhysicalRoot( WCHAR const * pwcVRoot,
unsigned ccVRoot,
CLowerFunnyPath & lcaseFunnyPRoot,
unsigned & ccPRoot )
{
//
// Find id of root.
//
unsigned iBmk = INVALID_VMAP_INDEX;
for ( unsigned i = 0; i < _aMap.Count(); i++ )
{
if ( !_aMap[i].IsFree() &&
_aMap[i].IsVirtualMatch( pwcVRoot, ccVRoot ) )
{
iBmk = i;
break;
}
}
if ( iBmk == INVALID_VMAP_INDEX )
return FALSE;
//
// Copy out physical root.
//
ccPRoot = _aMap[iBmk].PhysicalLength() - 1;
//
// Special case root.
//
if ( _aMap[iBmk].PhysicalPath()[1] == L':' )
{
if ( ccPRoot == 2 )
ccPRoot++;
}
else
{
unsigned cSlash = 0;
for ( unsigned i = 0; i < ccPRoot && cSlash < 4; i++ )
{
if ( _aMap[iBmk].PhysicalPath()[i] == L'\\' )
cSlash++;
}
if ( cSlash < 4 )
{
Win4Assert( cSlash == 3 );
ccPRoot++;
}
}
lcaseFunnyPRoot.SetPath( _aMap[iBmk].PhysicalPath(), ccPRoot );
return TRUE;
} //VirtualToPhysicalRoot
//+-------------------------------------------------------------------------
//
// Member: CVMap::VirtualToPhysicalRoot, public
//
// Synopsis: Given a virtual path, returns a virtual root under that
// virtual path, and the corresponding physical root. Will
// not return overlapping virtual roots.
//
// There may be multiple virtual roots that match the virtual
// path passed in, so this should be called in a loop until
// FALSE is returned. The [iBmk] should be zero for the first
// call in the iteration.
//
// Arguments: [pwcVPath] -- Virtual path
// [ccVPath] -- Size in chars of [pwcVPath]
// [xwcsVRoot] -- Virtual root
// [ccVRoot] -- returns count of chars in [xwcsVRoot]
// [lcaseFunnyPRoot] -- Physical root
// [ccPRoot] -- Size in actual chars of [lcaseFunnyPRoot]
// [iBmk] -- Bookmark for iteration.
//
// Returns: TRUE if match was found.
//
// History: 11-Feb-96 KyleP Created
// 15 Mar 96 AlanW Fixed bugs in enumeration which missed
// some roots and erroneously added others.
// 24 Nov 99 KLam Don't pre-reference zero length strings.
//
//--------------------------------------------------------------------------
BOOL CVMap::VirtualToPhysicalRoot( WCHAR const * pwcVPath,
unsigned ccVPath,
XGrowable<WCHAR> & xwcsVRoot,
unsigned & ccVRoot,
CLowerFunnyPath & lcaseFunnyPRoot,
unsigned & ccPRoot,
unsigned & iBmk )
{
CLock lock(_mutex);
//
// Path must be terminated with a backslash, or the path can be of
// 0 characters.
//
XGrowable<WCHAR> xwcTemp;
if ( (0 != ccVPath) && (pwcVPath[ccVPath-1] != L'\\') )
{
xwcTemp.SetSize( ccVPath + 1 );
RtlCopyMemory( xwcTemp.Get(), pwcVPath, ccVPath * sizeof(WCHAR) );
xwcTemp[ccVPath] = L'\\';
pwcVPath = xwcTemp.Get();
ccVPath++;
}
CScopeMatch Match( pwcVPath, ccVPath );
for ( ; iBmk < _aMap.Count(); iBmk++ )
{
if ( _aMap[iBmk].IsFree() || !_aMap[iBmk].IsInUse() )
continue;
//
// Possible match?
//
if ( Match.IsInScope( _aMap[iBmk].VirtualPath(),
_aMap[iBmk].VirtualLength() ) )
{
//
// The virtual root is a match. If there is a parent of
// this virtual root in the physical name space, ignore this
// one in favor of the other one, farther up the tree (as long
// as the parent root is also a scope match).
//
for ( unsigned idParent = _aMap[ iBmk ].Parent();
idParent != INVALID_VMAP_INDEX;
idParent = _aMap[idParent].Parent() )
{
if ( Match.IsInScope( _aMap[idParent].VirtualPath(),
_aMap[idParent].VirtualLength() ) )
break;
}
//
// Did we get all the way to the top of chain without
// finding another match?
//
if ( idParent == INVALID_VMAP_INDEX )
break;
}
if ( Match.IsPrefix( _aMap[iBmk].VirtualPath(),
_aMap[iBmk].VirtualLength() ) )
{
//
// The virtual root is a prefix of the path. Return it only
// if there is not some other vroot that is a better match.
//
BOOL fBetterMatch = FALSE;
for ( unsigned iRoot = 0;
!fBetterMatch && iRoot < _aMap.Count();
iRoot++ )
{
if ( iRoot == iBmk ||
_aMap[iRoot].IsFree() )
continue;
if ( _aMap[iBmk].VirtualLength() < _aMap[iRoot].VirtualLength() &&
Match.IsPrefix( _aMap[iRoot].VirtualPath(),
_aMap[iRoot].VirtualLength() ) )
{
fBetterMatch = TRUE;
}
}
//
// Was there no better match? If so, return this root.
//
if ( ! fBetterMatch )
break;
}
}
if ( iBmk < _aMap.Count() )
{
if ( ccVPath > _aMap[iBmk].VirtualLength() )
{
ccVRoot = ccVPath;
xwcsVRoot.SetBuf( pwcVPath, ccVPath );
unsigned ccExtra = ccVPath - _aMap[iBmk].VirtualLength();
ccPRoot = _aMap[iBmk].PhysicalLength() + ccExtra;
lcaseFunnyPRoot.SetPath( _aMap[iBmk].PhysicalPath(), _aMap[iBmk].PhysicalLength() );
lcaseFunnyPRoot.AppendPath( pwcVPath + _aMap[iBmk].VirtualLength(), ccExtra );
}
else
{
ccVRoot = _aMap[iBmk].VirtualLength();
xwcsVRoot.SetBuf( _aMap[iBmk].VirtualPath(), ccVRoot * sizeof(WCHAR) );
lcaseFunnyPRoot.SetPath( _aMap[iBmk].PhysicalPath(), ccPRoot = _aMap[iBmk].PhysicalLength() );
}
iBmk++;
return TRUE;
}
else
return FALSE;
} //VirtualToPhysicalRoot
//+-------------------------------------------------------------------------
//
// Member: CVMap::VirtualToAllPhysicalRoots, public
//
// Synopsis: Like VirtualToPhysicalRoot, except returns all matches
// (rather than just the highest parent which matches)
// and also returns non-indexed matches. Returns type
// in ulType so caller can decide what to do with
// non-indexed matches.
//
// Arguments: [pwcVPath] -- Virtual path
// [ccVPath] -- Size in chars of [pwcVPath]
// [xwcsVRoot] -- Virtual root
// [ccVRoot] -- returns count of chars in [pwcVRoot]
// [lcaseFunnyPRoot] -- Physical root
// [ccPRoot] -- returns count of actual chars in [lcaseFunnyPRoot]
// [ulType] -- Match type
// [iBmk] -- Bookmark for iteration.
//
// Returns: TRUE if match was found.
//
// History: 01-Sep-97 Emilyb Created
//
//--------------------------------------------------------------------------
BOOL CVMap::VirtualToAllPhysicalRoots( WCHAR const * pwcVPath,
unsigned ccVPath,
XGrowable<WCHAR> & xwcsVRoot,
unsigned & ccVRoot,
CLowerFunnyPath & lcaseFunnyPRoot,
unsigned & ccPRoot,
ULONG & ulType,
unsigned & iBmk )
{
CLock lock(_mutex);
//
// Path must be terminated with a backslash, or the path can be of
// 0 characters.
//
XGrowable<WCHAR> xwcTemp;
if ( ( 0 != ccVPath ) && ( pwcVPath[ccVPath-1] != L'\\' ) )
{
xwcTemp.SetSize( ccVPath + 1 );
RtlCopyMemory( xwcTemp.Get(), pwcVPath, ccVPath * sizeof(WCHAR) );
xwcTemp[ccVPath] = L'\\';
pwcVPath = xwcTemp.Get();
ccVPath++;
}
CScopeMatch Match( pwcVPath, ccVPath );
for ( ; iBmk < _aMap.Count(); iBmk++ )
{
if ( _aMap[iBmk].IsFree() )
continue;
//
// Possible match?
//
if ( Match.IsInScope( _aMap[iBmk].VirtualPath(),
_aMap[iBmk].VirtualLength() ) )
{
break;
}
if ( Match.IsPrefix( _aMap[iBmk].VirtualPath(),
_aMap[iBmk].VirtualLength() ) )
{
//
// The virtual root is a prefix of the path. Return it only
// if there is not some other vroot that is a better match.
//
BOOL fBetterMatch = FALSE;
for ( unsigned iRoot = 0;
!fBetterMatch && iRoot < _aMap.Count();
iRoot++ )
{
if ( iRoot == iBmk ||
_aMap[iRoot].IsFree() )
continue;
if ( _aMap[iBmk].VirtualLength() < _aMap[iRoot].VirtualLength() &&
Match.IsPrefix( _aMap[iRoot].VirtualPath(),
_aMap[iRoot].VirtualLength() ) )
{
fBetterMatch = TRUE;
}
}
//
// Was there no better match? If so, return this root.
//
if ( ! fBetterMatch )
break;
}
}
if ( iBmk < _aMap.Count() )
{
if ( ccVPath > _aMap[iBmk].VirtualLength() )
{
ccVRoot = ccVPath;
xwcsVRoot.SetBuf( pwcVPath, ccVPath );
unsigned ccExtra = ccVPath - _aMap[iBmk].VirtualLength();
ccPRoot = _aMap[iBmk].PhysicalLength() + ccExtra;
lcaseFunnyPRoot.SetPath( _aMap[iBmk].PhysicalPath(), _aMap[iBmk].PhysicalLength() );
lcaseFunnyPRoot.AppendPath( pwcVPath + _aMap[iBmk].VirtualLength(), ccExtra );
}
else
{
ccVRoot = _aMap[iBmk].VirtualLength();
xwcsVRoot.SetBuf( _aMap[iBmk].VirtualPath(), ccVRoot );
lcaseFunnyPRoot.SetPath( _aMap[iBmk].PhysicalPath(), ccPRoot = _aMap[iBmk].PhysicalLength() );
}
ulType = _aMap[iBmk].RootType();
iBmk++;
return TRUE;
}
else
return FALSE;
} //VirtualToAllPhysicalRoots
//+-------------------------------------------------------------------------
//
// Member: CVMap::EnumerateRoot, public
//
// Synopsis: Enumerate all virtual paths
//
// Arguments: [xwcVRoot] -- Virtual root
// [ccVRoot] -- returns count of chars in [xwcVRoot]
// [lcaseFunnyPRoot] -- Physical root as funny path
// [ccPRoot] -- returns count of actual chars in [lcaseFunnyPRoot]
// [iBmk] -- Bookmark for iteration.
//
// Returns: Type of root (Manual or Automatic)
//
// History: 15-Feb-96 KyleP Created
//
//--------------------------------------------------------------------------
ULONG CVMap::EnumerateRoot( XGrowable<WCHAR> & xwcVRoot,
unsigned & ccVRoot,
CLowerFunnyPath & lcaseFunnyPRoot,
unsigned & ccPRoot,
unsigned & iBmk )
{
CLock lock(_mutex);
for ( ; iBmk < _aMap.Count(); iBmk++ )
{
if ( !_aMap[iBmk].IsFree() )
break;
}
if ( iBmk < _aMap.Count() )
{
ccVRoot = _aMap[iBmk].VirtualLength() - 1;
//
// Special case root.
//
if ( 0 == ccVRoot )
ccVRoot++;
xwcVRoot.SetSize( ccVRoot + 1 );
xwcVRoot.SetBuf( _aMap[iBmk].VirtualPath(), ccVRoot );
xwcVRoot[ccVRoot] = 0;
ccPRoot = _aMap[iBmk].PhysicalLength() - 1;
//
// Special case root.
//
if ( _aMap[iBmk].PhysicalPath()[1] == L':' )
{
if ( ccPRoot == 2 )
ccPRoot++;
}
else
{
unsigned cSlash = 0;
for ( unsigned i = 0; i < ccPRoot && cSlash < 4; i++ )
{
if ( _aMap[iBmk].PhysicalPath()[i] == L'\\' )
cSlash++;
}
if ( cSlash < 4 )
{
Win4Assert( cSlash == 3 );
ccPRoot++;
}
}
lcaseFunnyPRoot.SetPath( _aMap[iBmk].PhysicalPath(), ccPRoot );
ULONG eType = _aMap[iBmk].RootType();
iBmk++;
return eType;
}
else
return (ULONG) PCatalog::EndRoot;
} //EnumerateRoot
//+-------------------------------------------------------------------------
//
// Member: CVMap::DoesPhysicalRootExist, public
//
// Synopsis: Determines whether a physical root is in the table
//
// Arguments: [pwcPRoot] -- Physical root to find
//
// Returns: TRUE if the physical root exists in the table
//
// History: 16-Oct-96 dlee Created
//
//--------------------------------------------------------------------------
BOOL CVMap::DoesPhysicalRootExist(
WCHAR const * pwcPRoot )
{
unsigned cwcPRoot = wcslen( pwcPRoot );
for ( unsigned i = 0; i < _aMap.Count(); i++ )
{
if ( !_aMap[i].IsFree() &&
!_aMap[i].IsNonIndexedVDir() &&
_aMap[i].IsPhysicalMatch( pwcPRoot, cwcPRoot ) )
return TRUE;
}
return FALSE;
} //DoesPhysicalRootExist