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345 lines
9.4 KiB
345 lines
9.4 KiB
// Enum.cpp -- Implementation for class CEnumStorage
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#include "stdafx.h"
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HRESULT CEnumStorage::NewEnumStorage
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(IUnknown *pUnkOuter,
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IITFileSystem *pITFS, PathInfo *pPI,
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IEnumSTATSTG **ppEnumSTATSTG
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)
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{
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CSyncWith sw(pITFS->CriticalSection());
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CEnumStorage *pEnumStorage= New CEnumStorage(pUnkOuter);
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return FinishSetup(pEnumStorage? pEnumStorage->m_ImpIEnumStorage.Initial(pITFS, pPI)
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: STG_E_INSUFFICIENTMEMORY,
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pEnumStorage, IID_IEnumSTATSTG, (PPVOID)ppEnumSTATSTG
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);
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}
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HRESULT CEnumStorage::NewClone(IUnknown *pUnkOuter, CImpIEnumStorage *pEnum,
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IEnumSTATSTG **ppEnumSTATSTG
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)
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{
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CEnumStorage *pEnumStorage= New CEnumStorage(pUnkOuter);
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return FinishSetup(pEnumStorage? pEnumStorage->m_ImpIEnumStorage.InitClone(pEnum)
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: STG_E_INSUFFICIENTMEMORY,
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pEnumStorage, IID_IEnumSTATSTG, (PPVOID)ppEnumSTATSTG
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);
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}
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CEnumStorage::CImpIEnumStorage::CImpIEnumStorage
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(CEnumStorage *pBackObj, IUnknown *pUnkOuter)
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: IITEnumSTATSTG(pBackObj, pUnkOuter)
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{
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m_pEnumPaths = NULL;
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m_cwcBasePath = 0;
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m_awszBasePath[0] = 0;
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m_awcKeyBuffer[0] = 0;
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m_State = Before;
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}
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CEnumStorage::CImpIEnumStorage::~CImpIEnumStorage(void)
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{
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if (m_pEnumPaths)
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m_pEnumPaths->Release();
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}
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HRESULT CEnumStorage::CImpIEnumStorage::Initial(IITFileSystem *pITFS, PathInfo *pPI)
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{
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m_cwcBasePath = pPI->cwcStreamPath;
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CopyMemory(m_awszBasePath, pPI->awszStreamPath, sizeof(WCHAR) * (m_cwcBasePath + 1));
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HRESULT hr = pITFS->EnumeratePaths((const WCHAR *) m_awszBasePath, &m_pEnumPaths);
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if (SUCCEEDED(hr))
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((IITEnumSTATSTG *) m_pEnumPaths)->Container()->MarkSecondary();
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RonM_ASSERT(m_State == Before);
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return hr;
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}
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HRESULT CEnumStorage::CImpIEnumStorage::InitClone(CImpIEnumStorage *pEnum)
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{
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HRESULT hr = pEnum->m_pEnumPaths->Clone(&m_pEnumPaths);
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if (hr == S_OK)
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{
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m_cwcBasePath = pEnum->m_cwcBasePath ;
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m_State = pEnum->m_State ;
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CopyMemory(m_awszBasePath, pEnum->m_awszBasePath, sizeof(m_awszBasePath));
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CopyMemory(m_awcKeyBuffer, pEnum->m_awcKeyBuffer, sizeof(m_awcKeyBuffer));
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}
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return hr;
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}
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HRESULT __stdcall CEnumStorage::CImpIEnumStorage::NextPathEntry
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(STATSTG *pStatStg)
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{
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// This functions advances the B-Tree pointer in the enumeration
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// object and returns the item name and record for the new position.
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//
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// By convention storage item names end with L'/' and stream item names
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// do not.
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if (m_State == After)
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return S_FALSE;
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STATSTG statstg;
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ULONG cEltsFetched;
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HRESULT hr = m_pEnumPaths->Next(1, &statstg, &cEltsFetched);
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for (; ;)
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{
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// This loop scans through a sequence of keys. We stop if we find
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// a key that doesn't begin with the base path. That indicates that
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// we've finished the enumeration for this storage.
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//
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// Otherwise we compare the key against the last element we enumerated
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// to filter out multiple references to a nested substorage.
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if (hr != S_OK)
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if (hr == S_FALSE)
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{
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m_State= After;
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return S_FALSE; // This means we've come to the
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// end of the path entries.
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}
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else return hr;
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UINT cwcPath = wcsLen(statstg.pwcsName);
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if (cwcPath < m_cwcBasePath)
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{
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OLEHeap()->Free(statstg.pwcsName);
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m_State= After;
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return S_FALSE;
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}
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PWCHAR pwcBase = m_awszBasePath;
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PWCHAR pwcPath = statstg.pwcsName;
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UINT c= m_cwcBasePath;
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for (; c--; )
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if (WC_To_0x0409_Lower(*pwcBase++) != WC_To_0x0409_Lower(*pwcPath++))
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{
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OLEHeap()->Free(statstg.pwcsName);
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m_State= After;
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return S_FALSE;
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}
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if (cwcPath == m_cwcBasePath)
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{
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// This entry contains state information for this storage.
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// So we need to advance to the next path.
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OLEHeap()->Free(statstg.pwcsName);
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hr = m_pEnumPaths->Next(1, &statstg, &cEltsFetched);
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continue;
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}
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PWCHAR pwc = pwcPath;
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BOOL fGotNextItem= FALSE;
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for (pwcBase= m_awcKeyBuffer; ;)
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{
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WCHAR wcLast = *pwcBase++;
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WCHAR wcCurr = *pwc++;
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if (wcLast == 0)
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{
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RonM_ASSERT(wcCurr != 0); // Otherwise we've got duplicate keys
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if (wcCurr == L'/')
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{
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// Current item is a storage, and last item was either empty
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// or was a stream.
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fGotNextItem= TRUE;
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break;
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}
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// Otherwise we've got a new item. Now we just have to find
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// the end of the item name. That will be either '/' or NULL.
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for (; ;)
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{
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wcCurr= *pwc++;
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if (!wcCurr || wcCurr == L'/')
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break;
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}
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fGotNextItem= TRUE;
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break;
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}
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if (wcLast == L'/')
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{
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RonM_ASSERT(wcCurr != 0); // Stream key always precedes storage synonym.
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if (wcCurr == L'/')
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break; // This key refers to the same substorage as the
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// last item.
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// Otherwise we've got a new item.
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for (; ;)
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{
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wcCurr= *pwc++;
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if (!wcCurr || wcCurr == L'/')
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break;
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}
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fGotNextItem= TRUE;
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break;
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}
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if (WC_To_0x0409_Lower(wcLast) == WC_To_0x0409_Lower(wcCurr))
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continue;
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// Otherwise we've got a new item.
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for (; ;wcCurr = *pwc++)
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if (!wcCurr || wcCurr == L'/')
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break;
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fGotNextItem= TRUE;
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break;
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}
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if (fGotNextItem)
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{
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UINT cwc = UINT(pwc - pwcPath - 1);
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CopyMemory(m_awcKeyBuffer , pwcPath, cwc * sizeof(WCHAR));
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MoveMemory(statstg.pwcsName, pwcPath, cwc * sizeof(WCHAR));
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statstg.pwcsName[cwc] = 0;
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if (pwc[-1] == L'/') // Item is a Storage
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{
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statstg.type = STGTY_STORAGE;
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m_awcKeyBuffer[cwc ] = L'/';
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m_awcKeyBuffer[cwc+1] = 0;
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if (pwc[0]) // Did we get Stat information for that storage?
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{
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// No, we got information for the first stream within that storage.
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// So we need to adjust the statstg info a little bit.
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statstg.cbSize.LowPart = 0;
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statstg.cbSize.HighPart = 0;
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statstg.grfMode = 0;
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statstg.grfLocksSupported = 0;
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statstg.clsid = CLSID_NULL;
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statstg.grfStateBits = 0;
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}
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}
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else
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{
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RonM_ASSERT(statstg.type == STGTY_STREAM);
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m_awcKeyBuffer[cwc] = 0;
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}
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*pStatStg = statstg;
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break;
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}
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OLEHeap()->Free(statstg.pwcsName);
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hr = m_pEnumPaths->Next(1, &statstg, &cEltsFetched);
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}
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return NOERROR;
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}
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HRESULT __stdcall CEnumStorage::CImpIEnumStorage::Next
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(ULONG celt, STATSTG __RPC_FAR *rgelt,
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ULONG __RPC_FAR *pceltFetched
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)
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{
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RonM_ASSERT(rgelt); // Null pointers not allowed!
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HRESULT hr = NOERROR;
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ULONG cElts = celt;
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ULONG cEltsProcessed = 0;
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for (; cElts--; rgelt++, cEltsProcessed++)
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{
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hr= NextPathEntry(rgelt);
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if (hr != S_OK) break;
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}
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if (pceltFetched)
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*pceltFetched= cEltsProcessed;
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return hr;
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}
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HRESULT __stdcall CEnumStorage::CImpIEnumStorage::Skip(ULONG celt)
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{
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HRESULT hr = NOERROR;
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STATSTG statstg;
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for (; celt--; )
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{
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hr= NextPathEntry(&statstg);
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if (hr != S_OK) break;
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OLEHeap()->Free(statstg.pwcsName);
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}
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return hr;
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}
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HRESULT __stdcall CEnumStorage::CImpIEnumStorage::Reset(void)
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{
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m_State = Before;
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m_awcKeyBuffer[0]= 0;
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m_pEnumPaths->Reset();
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return NOERROR;
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}
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HRESULT __stdcall CEnumStorage::CImpIEnumStorage::Clone
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(IEnumSTATSTG __RPC_FAR *__RPC_FAR *ppenum)
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{
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return CEnumStorage::NewClone(NULL, this, ppenum);
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}
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HRESULT STDMETHODCALLTYPE CEnumStorage::CImpIEnumStorage::GetNextEntryInSeq
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(ULONG celt, PathInfo *rgelt, ULONG *pceltFetched)
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{
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return E_NOTIMPL;
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}
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HRESULT STDMETHODCALLTYPE CEnumStorage::CImpIEnumStorage::GetFirstEntryInSeq
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(PathInfo *rgelt)
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{
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return E_NOTIMPL;
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}
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