Leaked source code of windows server 2003
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2100 lines
57 KiB

/*++
Copyright (c) 1998 Microsoft Corporation
Module Name: group.hxx
Abstract:
Manages cache group.
Author:
Danpo Zhang (DanpoZ) 02-08-98
--*/
#include <cache.hxx>
GroupMgr::GroupMgr()
{
_pContainer = NULL;
}
GroupMgr::~GroupMgr()
{
if( _pContainer )
{
_pContainer->Release(FALSE);
}
}
BOOL
GroupMgr::Init(URL_CONTAINER* pCont)
{
BOOL fRet = TRUE;
if( pCont )
{
_pContainer = pCont;
_pContainer->AddRef();
}
else
{
SetLastError(ERROR_INTERNET_INTERNAL_ERROR);
fRet = FALSE;
}
return fRet;
}
DWORD
GroupMgr::CreateGroup(DWORD dwFlags, GROUPID* pGID)
{
INET_ASSERT(_pContainer);
INET_ASSERT(pGID);
BOOL fMustUnlock;
DWORD dwError;
GROUP_ENTRY* pGroupEntry = NULL;
*pGID = 0;
if( !_pContainer->LockContainer(&fMustUnlock) )
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto exit;
}
if( dwFlags & CACHEGROUP_FLAG_GIDONLY )
{
// only needs to return GID, no group needs to be created
*pGID = ObtainNewGID();
if( *pGID )
dwError = ERROR_SUCCESS;
else
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto exit;
}
//
// find the first available entry by using FindEntry()
// passing gid = 0 means looking for empty entry
// passing TRUE means create new page if no entry available
//
dwError = FindEntry(0, &pGroupEntry, TRUE );
if( dwError != ERROR_SUCCESS )
{
goto exit;
}
// get a new gid
*pGID = ObtainNewGID();
if( *pGID )
{
// insert gid into the first available entry
// set the sticky bit for non purgable group
if( dwFlags & CACHEGROUP_FLAG_NONPURGEABLE )
{
*pGID = SetStickyBit(*pGID);
}
pGroupEntry->gid = *pGID;
pGroupEntry->dwGroupFlags = dwFlags;
dwError = ERROR_SUCCESS;
}
exit:
if( fMustUnlock )
{
_pContainer->UnlockContainer();
}
return dwError;
}
DWORD
GroupMgr::CreateDefaultGroups()
{
INET_ASSERT(_pContainer);
BOOL fMustUnlock;
DWORD dwError;
GROUP_ENTRY* pGroupEntry = NULL;
DWORD dwOffsetHead = 0;
if( !_pContainer->LockContainer(&fMustUnlock) )
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto exit;
}
if( GetHeaderData( CACHE_HEADER_DATA_ROOTGROUP_OFFSET, &dwOffsetHead)
&& dwOffsetHead )
{
BOOL fBadHead = FALSE;
// dwOffsetHead may point to a page which has not actually mapped in
if( _pContainer->_UrlObjStorage->IsBadGroupOffset(dwOffsetHead) )
{
fBadHead = TRUE;
}
else
{
// if offset is too big, invalid
FILEMAP_ENTRY* pFM = NULL;
pFM = (FILEMAP_ENTRY*)
(*_pContainer->_UrlObjStorage->GetHeapStart() +
dwOffsetHead - sizeof(FILEMAP_ENTRY) );
if(pFM->dwSig != SIG_ALLOC || !pFM->nBlocks )
{
fBadHead = TRUE;
}
}
if( fBadHead )
{
// dwOffsetHead is invalid, reset!
SetHeaderData(CACHE_HEADER_DATA_ROOTGROUP_OFFSET, 0);
}
}
// if already created, just return success
dwError = FindEntry(CACHEGROUP_ID_BUILTIN_STICKY, &pGroupEntry, FALSE);
if( dwError == ERROR_SUCCESS )
{
goto exit;
}
//
// not found, need to create new default groups
//
// find the first available entry by using FindEntry()
// passing gid = 0 means looking for empty entry
// passing TRUE means create new page if no entry available
//
dwError = FindEntry(0, &pGroupEntry, TRUE );
if( dwError != ERROR_SUCCESS )
{
goto exit;
}
// set the sticky bit for non purgable group
pGroupEntry->gid = CACHEGROUP_ID_BUILTIN_STICKY;
pGroupEntry->dwGroupFlags = CACHEGROUP_FLAG_NONPURGEABLE;
dwError = ERROR_SUCCESS;
exit:
if( fMustUnlock )
{
_pContainer->UnlockContainer();
}
return dwError;
}
DWORD
GroupMgr::DeleteGroup(GROUPID gid, DWORD dwFlags)
{
INET_ASSERT(_pContainer);
INET_ASSERT(gid);
BOOL fMustUnlock;
DWORD dwError;
GROUP_ENTRY* pGroupEntry = NULL;
GROUP_DATA_ENTRY* pData = NULL;
DWORD hUrlFindHandle = 0;
URL_FILEMAP_ENTRY* pUrlEntry = 0;
DWORD dwFindFilter;
HASH_ITEM* pItem = NULL;
if( !_pContainer->LockContainer(&fMustUnlock) )
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto exit;
}
// find the first available entry
dwError = FindEntry(gid, &pGroupEntry, FALSE);
if( dwError != ERROR_SUCCESS )
{
goto exit;
}
// Look for all the url associated with this group
// mark the groupid to 0
hUrlFindHandle = _pContainer->GetInitialFindHandle();
// set up find filter (do not care about cookie/history)
dwFindFilter = URLCACHE_FIND_DEFAULT_FILTER
& ~COOKIE_CACHE_ENTRY
& ~URLHISTORY_CACHE_ENTRY;
//
// loop find all url belongs to this group
// WARNING: this can be slow!
//
do
{
// next url in this group
pUrlEntry = (URL_FILEMAP_ENTRY*)
_pContainer->_UrlObjStorage->FindNextEntry(
&hUrlFindHandle, dwFindFilter, gid);
if( pUrlEntry )
{
INET_ASSERT(hUrlFindHandle);
pItem = (HASH_ITEM*)(
(LPBYTE) *_pContainer->_UrlObjStorage->GetHeapStart() +
hUrlFindHandle );
if( pItem->HasMultiGroup() )
{
//
// examing the group list and remove this group
// from the list
//
DWORD dwNewHeaderOffset = pUrlEntry->dwGroupOffset;
DWORD dwGroupEntryOffset = PtrDiff32(pGroupEntry, *_pContainer->_UrlObjStorage->GetHeapStart());
//
// find the to be deleted group entry in the list
// of groups associated with this url, we need to
// fix this by removing the to be dead group from
// the list
//
DWORD Error = RemoveFromGroupList(
pUrlEntry->dwGroupOffset,
dwGroupEntryOffset,
&dwNewHeaderOffset
);
//
// found the entry and head offset has been changed
//
if( Error == ERROR_SUCCESS &&
dwNewHeaderOffset != pUrlEntry->dwGroupOffset )
{
pUrlEntry->dwGroupOffset = dwNewHeaderOffset;
//
// no more group associated with this url
// let's update the hash flags
//
if( !dwNewHeaderOffset )
{
pItem->ClearMultGroup();
pItem->ClearGroup();
}
}
// sticky bit
if(!pUrlEntry->dwExemptDelta && IsStickyGroup(gid) )
{
//
// unset sticky bit for this url IFF
// 1) we are about to delete the last group of this url
// 2) there is no more sticky group associated with this
// url other than the to be deleted group
//
if( !pUrlEntry->dwGroupOffset ||
( pUrlEntry->dwGroupOffset &&
NoMoreStickyEntryOnList(pUrlEntry->dwGroupOffset)))
{
_pContainer->UpdateStickness(
pUrlEntry,
URLCACHE_OP_UNSET_STICKY,
hUrlFindHandle
);
}
}
}
else
{
//
// do not move the url entry now, so we just
// need to reset the GroupOffset and re-exam the
// stick bit
//
pUrlEntry->dwGroupOffset = 0;
// sticky bit
if(!pUrlEntry->dwExemptDelta && IsStickyGroup(gid) )
{
_pContainer->UpdateStickness(
pUrlEntry,
URLCACHE_OP_UNSET_STICKY,
hUrlFindHandle
);
}
}
if( dwFlags & CACHEGROUP_FLAG_FLUSHURL_ONDELETE)
{
//
// Container's DeleteUrlEntry method takes two
// param, the url entry and hash item.
// The hUrlFindHandle actually contains the
// offset of the Hash Item, so we can get
// the hash item from there.
//
// if this url belongs to other groups,
// do not delete it
if( !pItem->HasMultiGroup() )
{
_pContainer->DeleteUrlEntry(pUrlEntry, pItem, SIG_DELETE);
}
}
} // find next url
} while( pUrlEntry);
// if data entry exists, we should free them as well
if( pGroupEntry->dwGroupNameOffset )
{
dwError = FindDataEntry(pGroupEntry, &pData, FALSE);
if( dwError == ERROR_SUCCESS )
{
FreeDataEntry(pData);
}
}
memset(pGroupEntry, 0, sizeof(GROUP_ENTRY) );
dwError = ERROR_SUCCESS;
exit:
if( fMustUnlock )
{
_pContainer->UnlockContainer();
}
return dwError;
}
DWORD
GroupMgr::GetGroup(
GROUPID gid,
DWORD dwAttrib,
INTERNET_CACHE_GROUP_INFOA* pOutGroupInfo,
DWORD* pdwOutGroupInfoSize
)
{
INET_ASSERT(_pContainer);
INET_ASSERT(gid && pOutGroupInfo && pdwOutGroupInfoSize);
BOOL fMustUnlock;
DWORD dwError;
GROUP_ENTRY* pGroupEntry = NULL;
if( !_pContainer->LockContainer(&fMustUnlock) )
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto exit;
}
*pdwOutGroupInfoSize = 0;
// find the entry
dwError = FindEntry(gid, &pGroupEntry, FALSE);
if( dwError != ERROR_SUCCESS )
{
goto exit;
}
// init out param
memset(pOutGroupInfo, 0, sizeof(INTERNET_CACHE_GROUP_INFOA) );
// copy over GROUP_ENTRY -> GROUP_INFO
Translate(
dwAttrib,
pOutGroupInfo,
pGroupEntry,
GROUP_ENTRY_TO_INFO,
pdwOutGroupInfoSize
);
dwError = ERROR_SUCCESS;
exit:
if( fMustUnlock )
{
_pContainer->UnlockContainer();
}
return dwError;
}
DWORD
GroupMgr::SetGroup(
GROUPID gid,
DWORD dwAttrib,
INTERNET_CACHE_GROUP_INFOA* pGroupInfo
)
{
INET_ASSERT(_pContainer);
INET_ASSERT(pGroupInfo && gid);
BOOL fMustUnlock;
DWORD dwError;
GROUP_ENTRY* pGroupEntry;
if( !_pContainer->LockContainer(&fMustUnlock) )
{
dwError = GetLastError();
goto Cleanup;
}
pGroupEntry = NULL;
INET_ASSERT(pGroupInfo);
if( dwAttrib & ~(CACHEGROUP_READWRITE_MASK) )
{
//
// read only fields are being requested
//
dwError = ERROR_INVALID_PARAMETER;
goto Cleanup;
}
if( (dwAttrib & CACHEGROUP_ATTRIBUTE_GROUPNAME) &&
(strlen(pGroupInfo->szGroupName) >= GROUPNAME_MAX_LENGTH ) )
{
//
// name too long, exceed the buffer limit
//
dwError = ERROR_INVALID_PARAMETER;
goto Cleanup;
}
// find the entry
dwError = FindEntry(gid, &pGroupEntry, FALSE);
if( dwError != ERROR_SUCCESS )
{
goto Cleanup;
}
// copy over GROUP_INFO -> GROUP_ENTRY
Translate(
dwAttrib,
pGroupInfo,
pGroupEntry,
GROUP_INFO_TO_ENTRY,
0
);
dwError = ERROR_SUCCESS;
Cleanup:
if( fMustUnlock )
{
_pContainer->UnlockContainer();
}
return dwError;
}
DWORD
GroupMgr::GetNextGroup(
DWORD* pdwLastItemOffset,
GROUPID* pOutGroupId
)
{
INET_ASSERT(_pContainer);
INET_ASSERT(pOutGroupId);
BOOL fMustUnlock;
BOOL fEndOfGroups;
GROUP_ENTRY* pGroupEntry;
DWORD dwNewOffset;
DWORD dwError;
if( !_pContainer->LockContainer(&fMustUnlock) )
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
fEndOfGroups = TRUE;
goto Cleanup;
}
pGroupEntry = NULL;
dwNewOffset = 0;
fEndOfGroups = FALSE;
if( *pdwLastItemOffset == 0 )
{
// get root
dwError = FindRootEntry(&pGroupEntry, FALSE );
if( dwError != ERROR_SUCCESS )
{
//
// new find and we can not get the root entry
// this means there are no group at all.
//
fEndOfGroups = TRUE;
goto Cleanup;
}
} // IF: no previous offset, this is a new Find
else if( *pdwLastItemOffset == OFFSET_NO_MORE_GROUP )
{
// this group of search has completed already
fEndOfGroups = TRUE;
dwError = ERROR_FILE_NOT_FOUND;
goto Cleanup;
} // ELSE IF: previous FindNext has already reached the end of the groups
else
{
//
// use the offset to jump to the last returned item's entry
//
pGroupEntry = (GROUP_ENTRY*)
(*_pContainer->_UrlObjStorage->GetHeapStart() + *pdwLastItemOffset);
//
// one step forward
//
INET_ASSERT(pGroupEntry); // can't be null
INET_ASSERT( !IsIndexToNewPage(pGroupEntry) ); // can't be index item
pGroupEntry++;
} // ELSE: walk to the item which has been returned by previous FindNext()
// loop for next entry
while(pGroupEntry)
{
//
// if this entry is the last one of the page
// it contains offset pointing to the next page
//
if( IsIndexToNewPage(pGroupEntry) )
{
//
// BUGBUG
// we currently use dwFlags to indicating if
// this is pointing to the next offset
//
if( pGroupEntry->dwGroupFlags )
{
//
// walk to next page
//
pGroupEntry = (GROUP_ENTRY*)
( *_pContainer->_UrlObjStorage->GetHeapStart()
+ pGroupEntry->dwGroupFlags );
} // IF: index entry point to next page
else
{
//
// we are done
//
fEndOfGroups = TRUE;
dwError = ERROR_FILE_NOT_FOUND;
break;
} // ELSE: index page contains nothing (this is the last page)
} // special case: current entry is the index(point to next page)
//
// using gid to test if the entry is empty, if not,
// walk to the next entry
//
if( !pGroupEntry->gid )
{
pGroupEntry++;
}
else
{
break;
}
} // while(pGroupEntry)
Cleanup:
// update LastItemOffset
if (!fEndOfGroups
&& pGroupEntry)
{
LPBYTE lpbBase = *_pContainer->_UrlObjStorage->GetHeapStart();
dwNewOffset = PtrDiff32(pGroupEntry, lpbBase);
*pdwLastItemOffset = dwNewOffset;
// copy over GROUP_ENTRY -> GROUP_INFO
*pOutGroupId = pGroupEntry->gid;
dwError = ERROR_SUCCESS;
} // IF: find the item
else
{
*pdwLastItemOffset = OFFSET_NO_MORE_GROUP;
dwError = ERROR_FILE_NOT_FOUND;
} // ELSE: not find
if( fMustUnlock )
{
_pContainer->UnlockContainer();
}
return dwError;
}
DWORD
GroupMgr::FindRootEntry(
GROUP_ENTRY** ppOut, // OUT: first empty entry
BOOL fCreate // allocate new page if needed
)
{
INET_ASSERT(ppOut);
*ppOut = NULL;
GROUPS_ALLOC_FILEMAP_ENTRY* pPage = NULL;
DWORD dwError;
DWORD dwOffsetToRootEntry = 0;
// get base offset
if( GetHeaderData( CACHE_HEADER_DATA_ROOTGROUP_OFFSET, &dwOffsetToRootEntry))
{
if( !dwOffsetToRootEntry && fCreate )
{
dwError = CreateNewPage(&dwOffsetToRootEntry, TRUE);
if( dwError != ERROR_SUCCESS)
{
goto Cleanup;
}
}
else if( !dwOffsetToRootEntry && !fCreate )
{
//
// there is no offset infomation on the mem file
// however, the flag says do not create a new page
// failure is the only option here
//
dwError = ERROR_FILE_NOT_FOUND;
goto Cleanup;
}
} // IF: retrieve base offset
else
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto Cleanup;
} // ELSE: failed to get base offset
//
// At this point, we should either:
// 1. retrieved valid dwOffsetToRootEntry or
// 2. get the new dwOffsetToRootEntry via CreateNewPage() call
//
INET_ASSERT( dwOffsetToRootEntry );
*ppOut = (GROUP_ENTRY*)
( *_pContainer->_UrlObjStorage->GetHeapStart() + dwOffsetToRootEntry);
dwError = ERROR_SUCCESS;
Cleanup:
return dwError;
}
DWORD
GroupMgr::FindEntry(
GROUPID gid, // gid, 0 means find first empty seat
GROUP_ENTRY** ppOut, // OUT: entry with gid specified
BOOL fCreate // allocate new page if needed
// (applied for searching empty seat only)
)
{
INET_ASSERT(ppOut);
// fCreate can only be associated with gid == 0
INET_ASSERT( (fCreate && !gid ) || (!fCreate && gid ) );
GROUP_ENTRY* pGroupEntry = NULL;
DWORD dwError;
// get Root Entry
dwError = FindRootEntry(&pGroupEntry, fCreate);
if( dwError != ERROR_SUCCESS )
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto Cleanup;
} // failed to get the root entry
INET_ASSERT(pGroupEntry); // pGroupEntry should be available now
while(1)
{
// special case for end of this page
if( IsIndexToNewPage(pGroupEntry) )
{
//
// BUGBUG
// we currently use the dwFlags to indicating
// if this is pointing to the next offset
//
if( pGroupEntry->dwGroupFlags )
{
// walk to next page
pGroupEntry = (GROUP_ENTRY*)
( *_pContainer->_UrlObjStorage->GetHeapStart()
+ pGroupEntry->dwGroupFlags );
} // IF: index entry points to next page
else if( fCreate)
{
//////////////////////////////////////////////////////////////////
// BEGIN WARNING: The file might be grown and remapped, so all //
// pointers into the file before this point may be invalidated. //
//////////////////////////////////////////////////////////////////
DWORD dwOffsetToFirstEntry = 0;
LPBYTE lpbBase = NULL;
// remember the old offset for pGroupEntry
DWORD_PTR dwpEntryOffset = PtrDifference(pGroupEntry, *_pContainer->_UrlObjStorage->GetHeapStart());
// create new page!
dwError = CreateNewPage(&dwOffsetToFirstEntry, FALSE);
if( dwError != ERROR_SUCCESS )
{
goto Cleanup;
}
// recalculate pGroupEntry using the offset remembered
lpbBase = *_pContainer->_UrlObjStorage->GetHeapStart();
pGroupEntry = (GROUP_ENTRY*)(lpbBase + dwpEntryOffset);
//////////////////////////////////////////////////////////////////
// END WARNING: The file might be grown and remapped, so all //
// pointers into the file before this point may be invalidated. //
//////////////////////////////////////////////////////////////////
//
// pGroupEntry currently is the index item, insert
// the offset of the first item to the newly created page
//
pGroupEntry->dwGroupFlags = dwOffsetToFirstEntry;
// walk to the new page
pGroupEntry = (GROUP_ENTRY*)(lpbBase + dwOffsetToFirstEntry);
} // ELSE IF: index entry not point to new page, fCreate is
// set, a new page is being created
else
{
// this is the end of all groups, item still not found,
dwError = ERROR_FILE_NOT_FOUND;
break;
} // ELSE: index entry not point to new page, fCreate not set
} // IF: this entry is an index entry
//
// now pGroupEntry must point to a normal group entry
//
INET_ASSERT( !IsIndexToNewPage(pGroupEntry) );
if( pGroupEntry->gid != gid )
{
// not found, walk to next entry
pGroupEntry++;
}
else
{
// found entry
dwError = ERROR_SUCCESS;
break;
}
} // WHILE: (loop over all page)
Cleanup:
if( dwError == ERROR_SUCCESS )
{
*ppOut = pGroupEntry;
}
else
{
*ppOut = NULL;
}
return dwError;
}
DWORD
GroupMgr::CreateNewPage(DWORD* dwOffsetToFirstEntry, BOOL fIsFirstPage)
{
DWORD dwError;
GROUPS_ALLOC_FILEMAP_ENTRY* pPage = NULL;
DWORD cbSize = sizeof(GROUPS_ALLOC_FILEMAP_ENTRY);
pPage = (GROUPS_ALLOC_FILEMAP_ENTRY*)
_pContainer->_UrlObjStorage->AllocateEntry(cbSize);
if( pPage )
{
// clean up allocated page
cbSize = PAGE_SIZE_FOR_GROUPS;
memset(pPage->pGroupBlock, 0, cbSize );
// calculate the group base offset
LPBYTE lpbBase = *_pContainer->_UrlObjStorage->GetHeapStart();
*dwOffsetToFirstEntry = PtrDiff32(pPage->pGroupBlock, lpbBase);
//
// mark the last entry as index to next page
// (gid == GID_INDEX_TO_NEXT_PAGE) is the mark,
// the actual offset is stored at dwGroupFlags field
//
GROUP_ENTRY* pEnd = (GROUP_ENTRY*) pPage->pGroupBlock;
pEnd = pEnd + (GROUPS_PER_PAGE - 1);
pEnd->gid = GID_INDEX_TO_NEXT_PAGE;
if( fIsFirstPage )
{
//
// for first page, we would have to set the offset
// back to the CacheHeader
//
if( !SetHeaderData(
CACHE_HEADER_DATA_ROOTGROUP_OFFSET, *dwOffsetToFirstEntry))
{
// free allocated page
_pContainer->_UrlObjStorage->FreeEntry(pPage);
// set error and go
*dwOffsetToFirstEntry = 0;
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto Cleanup;
} // IF: failed to set the offset
}
// return the offset to the first entry of the new page
dwError = ERROR_SUCCESS;
} // IF: Allocate new page succeed
else
{
dwError = ERROR_NOT_ENOUGH_MEMORY;
} // ELSE: failed to allocate new page
Cleanup:
return dwError;
}
GROUPID
GroupMgr::ObtainNewGID()
{
SYSTEMTIME st;
DWORD dwC[2] = {0, 0};
GROUPID gid = 0;
// get counter from index file
if( GetHeaderData(CACHE_HEADER_DATA_GID_LOW, &dwC[0]) &&
GetHeaderData(CACHE_HEADER_DATA_GID_HIGH, &dwC[1]) )
{
if( !dwC[0] && !dwC[1] )
{
// need to get the current system time
GetSystemTime( &st );
SystemTimeToFileTime(&st, (FILETIME*)dwC);
} // IF: counter not initialized
else
{
// increment
if( dwC[0] != 0xffffffff )
{
dwC[0] ++;
}
else
{
dwC[0] = 0;
dwC[1] ++;
}
} // ELSE: counter initialized
// send data back to cache
if( SetHeaderData(CACHE_HEADER_DATA_GID_LOW, dwC[0] ) &&
SetHeaderData(CACHE_HEADER_DATA_GID_HIGH, dwC[1] ) )
{
//memcpy(&gid, dwC, sizeof(GROUPID) );
gid = *((GROUPID *)dwC);
}
}
// apply the mask to newly created gid
// the first 4 bits are reserved (one bit is used for stickness)
return (gid & GID_MASK);
}
BOOL
GroupMgr::Translate(
DWORD dwAttrib,
INTERNET_CACHE_GROUP_INFOA* pGroupInfo,
GROUP_ENTRY* pGroupEntry,
DWORD dwFlag,
DWORD* pdwSize
)
{
INET_ASSERT(pGroupInfo && pGroupEntry);
BOOL fRet = TRUE;
GROUP_DATA_ENTRY* pData = NULL;
DWORD dwError;
if( dwFlag == GROUP_ENTRY_TO_INFO )
{
INET_ASSERT(pdwSize);
// clear
memset(pGroupInfo, 0, sizeof(INTERNET_CACHE_GROUP_INFOA) );
*pdwSize = 0;
// basic entries
if( dwAttrib & CACHEGROUP_ATTRIBUTE_BASIC )
{
pGroupInfo->dwGroupSize = sizeof(INTERNET_CACHE_GROUP_INFOA);
pGroupInfo->dwGroupFlags = pGroupEntry->dwGroupFlags;
pGroupInfo->dwGroupType = pGroupEntry->dwGroupType;
pGroupInfo->dwDiskUsage = (DWORD)(pGroupEntry->llDiskUsage / 1024);
pGroupInfo->dwDiskQuota = pGroupEntry->dwDiskQuota;
}
// user friendly name
if( ( (dwAttrib & CACHEGROUP_ATTRIBUTE_GROUPNAME) |
(dwAttrib & CACHEGROUP_ATTRIBUTE_STORAGE ) ) &&
pGroupEntry->dwGroupNameOffset )
{
dwError = FindDataEntry(pGroupEntry, &pData, FALSE);
if( dwError != ERROR_SUCCESS )
{
fRet = FALSE;
}
else
{
DWORD dwLen = strlen(pData->szName) + 1;
INET_ASSERT( dwLen > GROUPNAME_MAX_LENGTH );
memcpy( pGroupInfo->szGroupName,
pData->szName,
dwLen );
memcpy( pGroupInfo->dwOwnerStorage,
pData->dwOwnerStorage,
sizeof(DWORD) * GROUP_OWNER_STORAGE_SIZE );
}
}
// set size
*pdwSize = sizeof(INTERNET_CACHE_GROUP_INFOA);
}
else
if( dwFlag == GROUP_INFO_TO_ENTRY )
{
// copy
if( dwAttrib & CACHEGROUP_ATTRIBUTE_FLAG )
{
pGroupEntry->dwGroupFlags = pGroupInfo->dwGroupFlags;
}
if( dwAttrib & CACHEGROUP_ATTRIBUTE_TYPE )
{
pGroupEntry->dwGroupType = pGroupInfo->dwGroupType;
}
if( dwAttrib & CACHEGROUP_ATTRIBUTE_QUOTA )
{
pGroupEntry->dwDiskQuota = pGroupInfo->dwDiskQuota;
}
if( (dwAttrib & CACHEGROUP_ATTRIBUTE_GROUPNAME) |
(dwAttrib & CACHEGROUP_ATTRIBUTE_STORAGE ) )
{
dwError = FindDataEntry(pGroupEntry, &pData, TRUE);
if( dwError != ERROR_SUCCESS )
{
fRet = FALSE;
}
else
{
if( dwAttrib & CACHEGROUP_ATTRIBUTE_GROUPNAME )
{
DWORD dwLen = strlen(pGroupInfo->szGroupName) + 1;
INET_ASSERT(dwLen > GROUPNAME_MAX_LENGTH);
memcpy( pData->szName,
pGroupInfo->szGroupName,
dwLen );
}
if( dwAttrib & CACHEGROUP_ATTRIBUTE_STORAGE )
{
memcpy( pData->dwOwnerStorage,
pGroupInfo->dwOwnerStorage,
sizeof(DWORD) * GROUP_OWNER_STORAGE_SIZE );
}
// BUGBUG
// if both fields are set to be empty, we should free
// the allocated data itam
}
}
}
else
{
fRet = FALSE;
}
return fRet;
}
BOOL
GroupMgr::IsPageEmpty(GROUP_ENTRY* pHead)
{
BOOL fRet = FALSE;
GROUP_ENTRY* pGroupEntry = pHead;
for( int i = 0; i < (GROUPS_PER_PAGE - 1); i ++)
{
if( pGroupEntry->gid )
{
break;
}
else
{
pGroupEntry++;
}
}
// there is no item found on this page
if( !pGroupEntry->gid && i == GROUPS_PER_PAGE - 1 )
{
fRet = TRUE;
}
return fRet;
}
BOOL
GroupMgr::IsLastPage(GROUP_ENTRY* pHead)
{
BOOL fRet = FALSE;
GROUP_ENTRY* pEnd = NULL;
// jump to last item
pEnd = pHead + GROUPS_PER_PAGE;
//
// the gid has to be marked as GID_INDEX_TO_NEXT_PAGE
// for index entry, and if the dwGroupFlags is 0,
// that means we are not pointing to any
// other page, this is the last page indeed.
//
if( pEnd->gid == GID_INDEX_TO_NEXT_PAGE && !pEnd->dwGroupFlags )
{
fRet = TRUE;
}
return fRet;
}
BOOL
GroupMgr::FreeEmptyPages(DWORD dwFlags)
{
INET_ASSERT(_pContainer);
BOOL fMustUnlock;
BOOL fRet = TRUE;
GROUP_ENTRY* pHead = NULL;
GROUP_ENTRY* pPrevHead = NULL;
GROUP_ENTRY* pEnd = NULL;
GROUP_ENTRY* pTobeDeleted = NULL;
BOOL fFirstPage = TRUE;
if( !_pContainer->LockContainer(&fMustUnlock) )
{
fRet = FALSE;
goto Cleanup;
}
// BUGBUG FindRootEntry changed the return code, check for dwError
if( FindRootEntry(&pHead, FALSE ) )
{
pPrevHead = pHead;
while(pHead)
{
pTobeDeleted = NULL;
if( IsPageEmpty(pHead) )
{
pTobeDeleted = pHead;
//
// find the offset of the next page
// 0 which means the current page is the last one
//
DWORD dwOffsetNextPage = 0;
pEnd = pHead + GROUPS_PER_PAGE;
dwOffsetNextPage = pEnd->dwGroupFlags;
//
// if the first page is to be deleted, we have to
// update the offset which points to the next page
//
if( fFirstPage)
{
if( !SetHeaderData(
CACHE_HEADER_DATA_ROOTGROUP_OFFSET, dwOffsetNextPage))
{
fRet = FALSE;
goto Cleanup;
}
}
else
{
//
// Link Prev page to Next page
//
GROUP_ENTRY* pPrevEnd = pPrevHead + GROUPS_PER_PAGE;
pPrevEnd->dwGroupFlags = dwOffsetNextPage;
}
}
//
// update pHead make it point to the next page
//
if( !IsLastPage(pHead) )
{
// remember pPrev
pPrevHead = pHead;
// walk to next page
pEnd = pHead + GROUPS_PER_PAGE;
pHead = (GROUP_ENTRY*)
( *_pContainer->_UrlObjStorage->GetHeapStart()
+ pEnd->dwGroupFlags );
// not first page anymore
fFirstPage = FALSE;
}
else
{
// this is the last page
pHead = NULL;
}
//
// free the tobe deleted page
//
if( pTobeDeleted )
{
GROUPS_ALLOC_FILEMAP_ENTRY* pPage = NULL;
pPage = (GROUPS_ALLOC_FILEMAP_ENTRY*) ((LPBYTE)pTobeDeleted - sizeof(FILEMAP_ENTRY));
_pContainer->_UrlObjStorage->FreeEntry(pPage);
}
}
}
Cleanup:
if( fMustUnlock )
{
_pContainer->UnlockContainer();
}
return fRet;
}
DWORD
GroupMgr::FindDataEntry(
GROUP_ENTRY* pGroupEntry,
GROUP_DATA_ENTRY** pOutData,
BOOL fCreate
)
{
INET_ASSERT(_pContainer);
INET_ASSERT(pGroupEntry && pOutData );
*pOutData = NULL;
BOOL fMustUnlock;
DWORD dwError;
LPBYTE lpbBase = NULL;
if( !_pContainer->LockContainer(&fMustUnlock) )
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto exit;
}
if( pGroupEntry->dwGroupNameOffset )
{
lpbBase = *_pContainer->_UrlObjStorage->GetHeapStart();
*pOutData = (GROUP_DATA_ENTRY*) (lpbBase + pGroupEntry->dwGroupNameOffset);
dwError = ERROR_SUCCESS;
}
else if( fCreate)
{
//////////////////////////////////////////////////////////////////
// BEGIN WARNING: The file might be grown and remapped, so all //
// pointers into the file before this point may be invalidated. //
//////////////////////////////////////////////////////////////////
// remember the old offset for pGroupEntry
DWORD_PTR dwpEntryOffset = PtrDifference(pGroupEntry, *_pContainer->_UrlObjStorage->GetHeapStart());
// create new data entry
*pOutData = GetHeadDataEntry(TRUE);
if( *pOutData )
{
//
// re-calc pGroupEntry
//
lpbBase = (LPBYTE) *_pContainer->_UrlObjStorage->GetHeapStart();
pGroupEntry = (GROUP_ENTRY*)(lpbBase + dwpEntryOffset);
//
// set entry's filename offset field
//
pGroupEntry->dwGroupNameOffset = PtrDiff32(*pOutData, lpbBase);
// succeed
dwError = ERROR_SUCCESS;
}
else
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
}
//////////////////////////////////////////////////////////////////
// END WARNING: The file might be grown and remapped, so all //
// pointers into the file before this point may be invalidated. //
//////////////////////////////////////////////////////////////////
}
else
{
dwError = ERROR_FILE_NOT_FOUND;
}
exit:
if( fMustUnlock )
{
_pContainer->UnlockContainer();
}
if( fCreate && (dwError == ERROR_SUCCESS) )
{
// for new item, it's nice to mark the next link to 0
(*pOutData)->dwOffsetNext = 0;
}
return dwError;
}
VOID
GroupMgr::FreeDataEntry(GROUP_DATA_ENTRY* pDataEntry)
{
// get the head entry
GROUP_ENTRY* pGroupEntry = NULL;
DWORD dwError = FindRootEntry(&pGroupEntry, FALSE );
if( dwError != ERROR_SUCCESS )
{
return;
}
//
// walk to the index item whose dwGroupNameOffset
// contains offset the the head of free list
//
pGroupEntry += (GROUPS_PER_PAGE - 1);
INET_ASSERT( pGroupEntry->gid == GID_INDEX_TO_NEXT_PAGE);
// memset the freed data entry
memset(pDataEntry, 0, sizeof(GROUP_DATA_ENTRY) );
// make data item's next link points to current head
pDataEntry->dwOffsetNext = pGroupEntry->dwGroupNameOffset;
// make the current head to be the just freed item's offset
LPBYTE lpbBase = *_pContainer->_UrlObjStorage->GetHeapStart();
pGroupEntry->dwGroupNameOffset = PtrDiff32(pDataEntry, lpbBase);
}
LPGROUP_DATA_ENTRY
GroupMgr::GetHeadDataEntry(BOOL fCreate)
{
GROUP_DATA_ENTRY* pDataEntry = NULL;
GROUP_ENTRY* pGroupEntry = NULL;
LPBYTE lpbBase = NULL;
// get the head entry
DWORD dwError = FindRootEntry(&pGroupEntry, FALSE );
if( dwError != ERROR_SUCCESS )
{
goto exit;
}
// walk to the index item
pGroupEntry += (GROUPS_PER_PAGE - 1);
INET_ASSERT( pGroupEntry->gid == GID_INDEX_TO_NEXT_PAGE);
// the dwGroupNameOffset contains offset the the head of free list
if( pGroupEntry->dwGroupNameOffset)
{
// get the head
lpbBase = (LPBYTE) *_pContainer->_UrlObjStorage->GetHeapStart();
pDataEntry = (GROUP_DATA_ENTRY*) (lpbBase + pGroupEntry->dwGroupNameOffset);
// reset head to next one
pGroupEntry->dwGroupNameOffset = pDataEntry->dwOffsetNext;
}
else if( fCreate )
{
//////////////////////////////////////////////////////////////////
// BEGIN WARNING: The file might be grown and remapped, so all //
// pointers into the file before this point may be invalidated. //
//////////////////////////////////////////////////////////////////
// remember the old offset for pGroupEntry
DWORD_PTR dwpEntryOffset = PtrDifference(pGroupEntry, *_pContainer->_UrlObjStorage->GetHeapStart());
// create a new page
GROUPS_ALLOC_FILEMAP_ENTRY* pPage = NULL;
DWORD cbSize = sizeof(GROUPS_ALLOC_FILEMAP_ENTRY);
pPage = (GROUPS_ALLOC_FILEMAP_ENTRY*)
_pContainer->_UrlObjStorage->AllocateEntry(cbSize);
if( !pPage )
{
goto exit;
}
// memset
memset(pPage->pGroupBlock, 0, PAGE_SIZE_FOR_GROUPS);
lpbBase = (LPBYTE) *_pContainer->_UrlObjStorage->GetHeapStart();
GROUP_DATA_ENTRY* pHead = (GROUP_DATA_ENTRY*)pPage->pGroupBlock;
pDataEntry = pHead;
// init list on the newly created page
for(int i = 0; i < GROUPS_DATA_PER_PAGE - 1; i++)
{
// point to next offset
GROUP_DATA_ENTRY* pNext = pHead + 1;
pHead->dwOffsetNext = PtrDiff32(pNext, lpbBase);
pHead = pNext;
}
//
// pGroupEntry needs to be re-calc!
//
pGroupEntry = (GROUP_ENTRY*)(lpbBase + dwpEntryOffset);
//
// pGroupEntry currently is the index entry of the first
// page, it's dwGroupNameOffset field points the head of
// the list of a free group data entry
//
pGroupEntry->dwGroupNameOffset = pDataEntry->dwOffsetNext;
//////////////////////////////////////////////////////////////////
// END WARNING: The file might be grown and remapped, so all //
// pointers into the file before this point may be invalidated. //
//////////////////////////////////////////////////////////////////
}
else
{
goto exit;
}
exit:
return pDataEntry;
}
DWORD
GroupMgr::GetOffsetFromList(DWORD dwHeadOffset, GROUPID gid, DWORD* pdwOffset)
{
DWORD dwError;
LIST_GROUP_ENTRY* pListGroup = NULL;
GROUP_ENTRY* pGroupEntry = NULL;
*pdwOffset = 0;
pListGroup =
_pContainer->_UrlObjStorage->ValidateListGroupOffset(dwHeadOffset);
if( !pListGroup )
{
dwError = ERROR_FILE_NOT_FOUND;
goto Cleanup;
}
while(1)
{
if(!_pContainer->_UrlObjStorage->IsBadGroupOffset(pListGroup->dwGroupOffset))
{
pGroupEntry = (GROUP_ENTRY*)
( *_pContainer->_UrlObjStorage->GetHeapStart()
+ pListGroup->dwGroupOffset );
}
else
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto Cleanup;
}
if( pGroupEntry && pGroupEntry->gid == gid )
{
*pdwOffset = pListGroup->dwGroupOffset;
break;
}
// end of list, not found
if( !pListGroup->dwNext )
{
dwError = ERROR_FILE_NOT_FOUND;
break;
}
// walk to next
pListGroup =
_pContainer->_UrlObjStorage->ValidateListGroupOffset(
pListGroup->dwNext);
if( !pListGroup )
{
dwError = ERROR_FILE_NOT_FOUND;
goto Cleanup;
}
}
if( *pdwOffset )
{
dwError = ERROR_SUCCESS;
}
else
{
dwError = ERROR_FILE_NOT_FOUND;
}
Cleanup:
return dwError;
}
DWORD
GroupMgr::CreateNewGroupList(DWORD* pdwHeadOffset)
{
DWORD dwError;
// Find empty slot
*pdwHeadOffset = 0;
dwError = FindEmptySlotInListPage(pdwHeadOffset);
if( ERROR_SUCCESS != dwError )
{
goto Cleanup;
}
Cleanup:
return dwError;
}
DWORD
GroupMgr::AddToGroupList(DWORD dwHeadOffset, DWORD dwOffset)
{
DWORD dwError;
DWORD dwEmptySlot;
LIST_GROUP_ENTRY* pListGroup = NULL;
LIST_GROUP_ENTRY* pListGroupEmpty = NULL;
// if the item already on the list, return success
if( IsGroupOnList(dwHeadOffset, dwOffset) )
{
dwError = ERROR_SUCCESS;
goto Cleanup;
}
pListGroup =
_pContainer->_UrlObjStorage->ValidateListGroupOffset(dwHeadOffset);
if( !pListGroup )
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto Cleanup;
}
if( !pListGroup->dwGroupOffset )
{
// list is empty, just need to fill up the Head
pListGroup->dwGroupOffset = dwOffset;
}
else
{
// List is not empty, we have to walk to end of the list
// also need to get another empty slot
//////////////////////////////////////////////////////////////////
// BEGIN WARNING: The file might be grown and remapped, so all //
// pointers into the file before this point may be invalidated. //
//////////////////////////////////////////////////////////////////
// remember the old offset for pListGroup
DWORD_PTR dwpListGroupOffset = PtrDifference(pListGroup, *_pContainer->_UrlObjStorage->GetHeapStart());
// find empty slot
dwError = FindEmptySlotInListPage(&dwEmptySlot);
if( ERROR_SUCCESS != dwError )
{
goto Cleanup;
}
// recalculate pListGroup using the offset remembered
LPBYTE lpbBase = *_pContainer->_UrlObjStorage->GetHeapStart();
pListGroup = (LIST_GROUP_ENTRY*)(lpbBase + dwpListGroupOffset);
//////////////////////////////////////////////////////////////////
// END WARNING: The file might be grown and remapped, so all //
// pointers into the file before this point may be invalidated. //
//////////////////////////////////////////////////////////////////
// walk to end of list
while( pListGroup->dwNext )
{
pListGroup =
_pContainer->_UrlObjStorage->ValidateListGroupOffset(
pListGroup->dwNext);
if( !pListGroup )
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto Cleanup;
}
}
// Get ListGroupEmpty Object from the empty slot
pListGroupEmpty =
_pContainer->_UrlObjStorage->ValidateListGroupOffset(dwEmptySlot);
if( !pListGroupEmpty )
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto Cleanup;
}
// assign the new offset
pListGroupEmpty->dwGroupOffset = dwOffset;
// append empty slot at the end of the list
// this need to be done at last to prevent some invalid
// object get on the list
pListGroup->dwNext = dwEmptySlot;
}
dwError = ERROR_SUCCESS;
Cleanup:
return dwError;
}
DWORD
GroupMgr::RemoveFromGroupList(
DWORD dwHeadOffset,
DWORD dwOffset,
LPDWORD pdwNewHeadOffset
)
{
DWORD dwError = ERROR_SUCCESS;
LIST_GROUP_ENTRY* pListGroup = NULL;
LIST_GROUP_ENTRY* pListGroupPrev = NULL;
LPBYTE lpbBase = NULL;
pListGroup =
_pContainer->_UrlObjStorage->ValidateListGroupOffset(dwHeadOffset);
if( !pListGroup )
{
dwError = ERROR_FILE_NOT_FOUND;
goto Cleanup;
}
lpbBase = (LPBYTE) *_pContainer->_UrlObjStorage->GetHeapStart();
// header is the one we need, we will have to assign new header
if( pListGroup->dwGroupOffset == dwOffset )
{
// new head
*pdwNewHeadOffset = pListGroup->dwNext;
// empty removed head and added to free list
pListGroup->dwGroupOffset = 0;
pListGroup->dwNext= 0;
AddToFreeList(pListGroup);
// done
dwError = ERROR_SUCCESS;
goto Cleanup;
}
if( !pListGroup->dwNext )
{
dwError = ERROR_FILE_NOT_FOUND;
goto Cleanup;
}
pListGroupPrev = pListGroup;
pListGroup =
_pContainer->_UrlObjStorage->ValidateListGroupOffset(pListGroup->dwNext);
if( !pListGroup)
{
dwError = ERROR_FILE_NOT_FOUND;
goto Cleanup;
}
while( pListGroup )
{
INET_ASSERT(pListGroup->dwGroupOffset);
if( pListGroup->dwGroupOffset == dwOffset )
{
pListGroupPrev->dwNext = pListGroup->dwNext;
// empty removed item and added it to free list
pListGroup->dwGroupOffset = 0;
pListGroup->dwNext= 0;
AddToFreeList(pListGroup);
dwError = ERROR_SUCCESS;
break;
}
if( pListGroup->dwNext )
{
pListGroupPrev = pListGroup;
pListGroup =
_pContainer->_UrlObjStorage->ValidateListGroupOffset(pListGroup->dwNext);
}
else
{
dwError = ERROR_FILE_NOT_FOUND;
break;
}
}
Cleanup:
return dwError;
}
DWORD
GroupMgr::FindEmptySlotInListPage(DWORD* pdwOffsetToSlot)
{
DWORD dwError;
DWORD dwOffsetRoot = 0;
LPBYTE lpbBase = NULL;
LIST_GROUP_ENTRY* pListGroupFreeHead = NULL;
LIST_GROUP_ENTRY* pListGroupEmpty = NULL;
if( !GetHeaderData( CACHE_HEADER_DATA_ROOT_GROUPLIST_OFFSET, &dwOffsetRoot))
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto Cleanup;
}
if( !dwOffsetRoot)
{
// new page needs to be created
dwError = CreateNewListPage(&dwOffsetRoot, TRUE);
if( dwError != ERROR_SUCCESS)
goto Cleanup;
}
//
// At this point, we've got the root entry
// 1. retrieved valid dwOffsetToRootEntry or
// 2. get the new dwOffsetToRootEntry via CreateNewPage() call
//
INET_ASSERT( dwOffsetRoot);
lpbBase = (LPBYTE) *_pContainer->_UrlObjStorage->GetHeapStart();
pListGroupFreeHead = (LIST_GROUP_ENTRY*) (lpbBase + dwOffsetRoot);
if( !pListGroupFreeHead )
{
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto Cleanup;
}
//////////////////////////////////////////////////////////////////
// BEGIN WARNING: The file might be grown and remapped, so all //
// pointers into the file before this point may be invalidated. //
//////////////////////////////////////////////////////////////////
// get the next free item from the list
if( !pListGroupFreeHead->dwNext )
{
// no free slot left!, let's create a new page!
// remember the old offset free list head entry
DWORD_PTR dwpFreeHeadOffset = PtrDifference(pListGroupFreeHead, lpbBase);
// create a new page
DWORD dwNewList;
dwError = CreateNewListPage(&dwNewList, FALSE);
if( dwError != ERROR_SUCCESS)
goto Cleanup;
// restore
lpbBase = (LPBYTE) *_pContainer->_UrlObjStorage->GetHeapStart();
pListGroupFreeHead = (LIST_GROUP_ENTRY*) (lpbBase + dwpFreeHeadOffset);
//
// add the newly created page contains a list of empty
// slot (already chained together), now update the head
// of free list pointing to the head of the newly created
// list
//
pListGroupFreeHead->dwNext = dwNewList;
}
//////////////////////////////////////////////////////////////////
// END WARNING: The file might be grown and remapped, so all //
// pointers into the file before this point may be invalidated. //
//////////////////////////////////////////////////////////////////
// get the empty slot offset
*pdwOffsetToSlot = pListGroupFreeHead->dwNext;
// update the free list to point to the next slot
pListGroupEmpty = (LIST_GROUP_ENTRY*)(lpbBase + pListGroupFreeHead->dwNext);
pListGroupFreeHead->dwNext = pListGroupEmpty->dwNext;
memset(pListGroupEmpty, 0, sizeof(LIST_GROUP_ENTRY) );
dwError = ERROR_SUCCESS;
Cleanup:
return dwError;
}
DWORD
GroupMgr::CreateNewListPage(DWORD* pdwOffsetToFirstEntry, BOOL fIsFirstPage)
{
DWORD dwError;
GROUPS_ALLOC_FILEMAP_ENTRY* pPage = NULL;
DWORD cbSize = sizeof(GROUPS_ALLOC_FILEMAP_ENTRY);
pPage = (GROUPS_ALLOC_FILEMAP_ENTRY*)
_pContainer->_UrlObjStorage->AllocateEntry(cbSize);
if( pPage )
{
// clean up allocated page
cbSize = PAGE_SIZE_FOR_GROUPS;
memset(pPage->pGroupBlock, 0, cbSize );
// calculate the group base offset
LPBYTE lpbBase = (LPBYTE) *_pContainer->_UrlObjStorage->GetHeapStart();
*pdwOffsetToFirstEntry = PtrDiff32(pPage->pGroupBlock, lpbBase);
//
// chain all items together
// (Last item will have dwNext == 0 since we have alredy memset
// the whole page )
//
LIST_GROUP_ENTRY* pList = (LIST_GROUP_ENTRY*) pPage->pGroupBlock;
for( DWORD dwi = 0; dwi < (LIST_GROUPS_PER_PAGE -1); dwi++)
{
pList->dwNext = PtrDiff32(pList+1, lpbBase);
pList++ ;
}
if( fIsFirstPage )
{
//
// for first page, we would have to set the offset
// back to the CacheHeader
//
if( !SetHeaderData(
CACHE_HEADER_DATA_ROOT_GROUPLIST_OFFSET,
*pdwOffsetToFirstEntry))
{
// free allocated page
_pContainer->_UrlObjStorage->FreeEntry(pPage);
// set error and go
*pdwOffsetToFirstEntry = 0;
dwError = ERROR_INTERNET_INTERNAL_ERROR;
goto Cleanup;
} // IF: failed to set the offset
}
// return the offset to the first entry of the new page
dwError = ERROR_SUCCESS;
} // IF: Allocate new page succeed
else
{
dwError = ERROR_NOT_ENOUGH_MEMORY;
} // ELSE: failed to allocate new page
Cleanup:
return dwError;
}
BOOL
GroupMgr::IsGroupOnList(DWORD dwHeadOffset, DWORD dwGrpOffset)
{
BOOL fRet = FALSE;
LIST_GROUP_ENTRY* pListGroup = NULL;
LIST_GROUP_ENTRY *pMilestone = NULL; // used for detecting cycles
unsigned long dwNodeCount = 1;
pListGroup =
_pContainer->_UrlObjStorage->ValidateListGroupOffset(dwHeadOffset);
if( !pListGroup )
{
goto Cleanup;
}
while( pListGroup )
{
//INET_ASSERT(pListGroup->dwGroupOffset);
if( pListGroup->dwGroupOffset == dwGrpOffset )
{
fRet = TRUE;
break;
}
if( pListGroup->dwNext )
{
LIST_GROUP_ENTRY* plgTemp =
_pContainer->_UrlObjStorage->ValidateListGroupOffset(
pListGroup->dwNext);
// Sometimes the list is corrupted and contains a cycle
// This is detected by comparing against the saved pointer
// (Revisiting an earlier milestone indicates a cycle)
if (plgTemp==pMilestone)
break;
// Also check (and fix) simple self-loops
if (plgTemp==pListGroup)
{
pListGroup->dwNext = 0;
break;
}
// Advance to next node
pListGroup = plgTemp;
// Choose new milestone when node count is power of 2
dwNodeCount++;
if ((dwNodeCount & (dwNodeCount-1)) == 0)
pMilestone = pListGroup;
}
else
{
break;
}
}
Cleanup:
return fRet;
}
BOOL
GroupMgr::NoMoreStickyEntryOnList(DWORD dwHeadOffset)
{
BOOL fRet = FALSE;
LIST_GROUP_ENTRY* pListGroup = NULL;
GROUP_ENTRY* pGroupEntry = NULL;
pListGroup =
_pContainer->_UrlObjStorage->ValidateListGroupOffset(dwHeadOffset);
if( !pListGroup )
{
goto Cleanup;
}
while( pListGroup )
{
//INET_ASSERT(pListGroup->dwGroupOffset);
// get the GroupEntry structure
if( !_pContainer->_UrlObjStorage->IsBadGroupOffset(
pListGroup->dwGroupOffset) )
{
pGroupEntry = (GROUP_ENTRY*)
( *_pContainer->_UrlObjStorage->GetHeapStart() +
pListGroup->dwGroupOffset );
// IsSticky?
if( IsStickyGroup(pGroupEntry->gid) )
{
goto Cleanup;
}
}
// end of list
if( !pListGroup->dwNext )
{
break;
}
// next item on list
pListGroup = _pContainer->_UrlObjStorage->ValidateListGroupOffset(
pListGroup->dwNext);
}
//
// reach here means we are at end of the list and can not find
// any sticky group, return TRUE
//
fRet = TRUE;
Cleanup:
return fRet;
}
void
GroupMgr::AdjustUsageOnList(DWORD dwHeadOffset, LONGLONG llDelta)
{
LIST_GROUP_ENTRY* pListGroup = NULL;
GROUP_ENTRY* pGroupEntry = NULL;
pListGroup =
_pContainer->_UrlObjStorage->ValidateListGroupOffset(dwHeadOffset);
if( !pListGroup )
{
goto Cleanup;
}
while( pListGroup )
{
// INET_ASSERT(pListGroup->dwGroupOffset);
// get the GroupEntry structure
if( !_pContainer->_UrlObjStorage->IsBadGroupOffset(
pListGroup->dwGroupOffset) )
{
pGroupEntry = (GROUP_ENTRY*)
( *_pContainer->_UrlObjStorage->GetHeapStart() +
pListGroup->dwGroupOffset );
// AdjustUsage
_pContainer->AdjustGroupUsage(pGroupEntry, llDelta);
}
// end of list
if( !pListGroup->dwNext )
{
goto Cleanup;
}
// next item on list
pListGroup = _pContainer->_UrlObjStorage->ValidateListGroupOffset(
pListGroup->dwNext);
}
Cleanup:
return;
}
void
GroupMgr::AddToFreeList(LIST_GROUP_ENTRY* pFreeListGroup)
{
DWORD dwOffsetRoot = 0;
LIST_GROUP_ENTRY* pFreeListHead = NULL;
if( GetHeaderData( CACHE_HEADER_DATA_ROOT_GROUPLIST_OFFSET, &dwOffsetRoot))
{
pFreeListHead =
_pContainer->_UrlObjStorage->ValidateListGroupOffset(dwOffsetRoot);
if( pFreeListHead && pFreeListGroup )
{
pFreeListGroup->dwNext = pFreeListHead->dwNext;
pFreeListHead->dwNext = PtrDiff32(pFreeListGroup,
*_pContainer->_UrlObjStorage->GetHeapStart());
}
}
return;
}