void CMapiFolderList::DumpList( void) { CMapiFolder *pFolder; nsString str; int depth; char prefix[256]; MAPI_TRACE0( "Folder List ---------------------------------\n"); for (int i = 0; i < m_array.Count(); i++) { pFolder = (CMapiFolder *)GetAt( i); depth = pFolder->GetDepth(); pFolder->GetDisplayName( str); depth *= 2; if (depth > 255) depth = 255; memset( prefix, ' ', depth); prefix[depth] = 0; #ifdef MAPI_DEBUG char *ansiStr = ToNewCString(str); MAPI_TRACE2( "%s%s: ", prefix, ansiStr); NS_Free(ansiStr); #endif pFolder->GetFilePath( str); #ifdef MAPI_DEBUG ansiStr = ToNewCString(str); MAPI_TRACE2( "depth=%d, filePath=%s\n", pFolder->GetDepth(), ansiStr); NS_Free(ansiStr); #endif } MAPI_TRACE0( "---------------------------------------------\n"); }
BOOL CMapiFolderContents::SetUpIter( void) { // First, open up the MAPIFOLDER object ULONG ulObjType; HRESULT hr; hr = m_lpMdb->OpenEntry( m_fCbEid, (LPENTRYID) m_fLpEid, NULL, 0, &ulObjType, (LPUNKNOWN *) &m_lpFolder); if (FAILED(hr) || !m_lpFolder) { m_lpFolder = NULL; m_lastError = hr; MAPI_TRACE2( "CMapiFolderContents OpenEntry failed: 0x%lx, %d\n", (long)hr, (int)hr); return( FALSE); } if (ulObjType != MAPI_FOLDER) { m_lastError = -1; MAPI_TRACE0( "CMapiFolderContents - bad object type, not a folder.\n"); return( FALSE); } hr = m_lpFolder->GetContentsTable( 0, &m_lpTable); if (FAILED(hr) || !m_lpTable) { m_lastError = hr; m_lpTable = NULL; MAPI_TRACE2( "CMapiFolderContents - GetContentsTable failed: 0x%lx, %d\n", (long)hr, (int)hr); return( FALSE); } hr = m_lpTable->GetRowCount( 0, &m_count); if (FAILED(hr)) { m_lastError = hr; MAPI_TRACE0( "CMapiFolderContents - GetRowCount failed\n"); return( FALSE); } hr = m_lpTable->SetColumns( (LPSPropTagArray)&ptaEid, 0); if (FAILED(hr)) { m_lastError = hr; MAPI_TRACE2( "CMapiFolderContents - SetColumns failed: 0x%lx, %d\n", (long)hr, (int)hr); return( FALSE); } hr = m_lpTable->SeekRow( BOOKMARK_BEGINNING, 0, NULL); if (FAILED(hr)) { m_lastError = hr; MAPI_TRACE2( "CMapiFolderContents - SeekRow failed: 0x%lx, %d\n", (long)hr, (int)hr); return( FALSE); } return( TRUE); }
BOOL CMapiMessage::IterateAttachTable( void) { LPMAPITABLE lpTable = m_pAttachTable; ULONG rowCount; HRESULT hr = lpTable->GetRowCount( 0, &rowCount); if (!rowCount) { return( TRUE); } hr = lpTable->SetColumns( (LPSPropTagArray)&ptaEid, 0); if (FAILED(hr)) { MAPI_TRACE2( "SetColumns for attachment table failed: 0x%lx, %d\r\n", (long)hr, (int)hr); return( FALSE); } hr = lpTable->SeekRow( BOOKMARK_BEGINNING, 0, NULL); if (FAILED(hr)) { MAPI_TRACE2( "SeekRow for attachment table failed: 0x%lx, %d\r\n", (long)hr, (int)hr); return( FALSE); } int cNumRows = 0; LPSRowSet lpRow; BOOL bResult = TRUE; do { lpRow = NULL; hr = lpTable->QueryRows( 1, 0, &lpRow); if(HR_FAILED(hr)) { MAPI_TRACE2( "QueryRows for attachment table failed: 0x%lx, %d\n", (long)hr, (int)hr); bResult = FALSE; break; } if (lpRow) { cNumRows = lpRow->cRows; if (cNumRows) { DWORD aNum = lpRow->aRow[0].lpProps[ieidPR_ATTACH_NUM].Value.ul; m_attachNums.AppendElement(aNum); MAPI_TRACE1( "\t\t****Attachment found - #%d\r\n", (int)aNum); } CMapiApi::FreeProws( lpRow); } } while ( SUCCEEDED(hr) && cNumRows && lpRow); return( bResult); }
CMsgStore * CMapiApi::FindMessageStore( ULONG cbEid, LPENTRYID lpEid) { if (!m_lpSession) { MAPI_TRACE0( "FindMessageStore called before session is open\n"); m_lastError = -1; return( NULL); } ULONG result; HRESULT hr; CMsgStore * pStore; for (int i = 0; i < m_pStores->Count(); i++) { pStore = (CMsgStore *) m_pStores->ElementAt( i); hr = m_lpSession->CompareEntryIDs( cbEid, lpEid, pStore->GetCBEntryID(), pStore->GetLPEntryID(), 0, &result); if (HR_FAILED( hr)) { MAPI_TRACE2( "CompareEntryIDs failed: 0x%lx, %d\n", (long)hr, (int)hr); m_lastError = hr; return( NULL); } if ( result) { return( pStore); } } pStore = new CMsgStore( cbEid, lpEid); AddMessageStore( pStore); return( pStore); }
CMapiApi::~CMapiApi() { m_clients--; if (!m_clients) { HRESULT hr; ClearMessageStores(); delete m_pStores; m_pStores = NULL; m_lpMdb = NULL; if (m_lpSession) { hr = m_lpSession->Logoff( NULL, 0, 0); if (FAILED(hr)) { MAPI_TRACE2( "Logoff failed: 0x%lx, %d\n", (long)hr, (int)hr); } m_lpSession->Release(); m_lpSession = NULL; } if (m_initialized) { MAPIUninitialize(); m_initialized = FALSE; } UnloadMapi(); if (m_pUniBuff) delete [] m_pUniBuff; m_pUniBuff = NULL; m_uniBuffLen = 0; } }
void CMapiApi::ListProperties( LPMAPIPROP lpProp, BOOL getValues) { LPSPropTagArray pArray; HRESULT hr = lpProp->GetPropList( 0, &pArray); if (FAILED(hr)) { MAPI_TRACE0( " Unable to retrieve property list\n"); return; } ULONG count = 0; LPMAPINAMEID FAR * lppPropNames; SPropTagArray tagArray; LPSPropTagArray lpTagArray = &tagArray; tagArray.cValues = (ULONG)1; nsCString desc; for (ULONG i = 0; i < pArray->cValues; i++) { GetPropTagName( pArray->aulPropTag[i], desc); if (getValues) { tagArray.aulPropTag[0] = pArray->aulPropTag[i]; hr = lpProp->GetNamesFromIDs(&lpTagArray, nsnull, 0, &count, &lppPropNames); if (hr == S_OK) MAPIFreeBuffer(lppPropNames); LPSPropValue pVal = GetMapiProperty( lpProp, pArray->aulPropTag[i]); if (pVal) { desc += ", "; ListPropertyValue( pVal, desc); MAPIFreeBuffer( pVal); } } MAPI_TRACE2( " Tag #%d: %s\n", (int)i, (const char *)desc); } MAPIFreeBuffer( pArray); }
void CMapiApi::ReportUIDProp( const char *pTag, LPSPropValue pVal) { if ( pVal && (PROP_TYPE( pVal->ulPropTag) == PT_BINARY)) { if (pVal->Value.bin.cb != 16) { MAPI_TRACE1( "%s - INVALID, expecting 16 bytes of binary data for UID\n", pTag); } else { nsIID uid; memcpy( &uid, pVal->Value.bin.lpb, 16); char * pStr = uid.ToString(); if (pStr) { MAPI_TRACE2( "%s %s\n", pTag, (const char *)pStr); NS_Free( pStr); } } } else if (pVal && (PROP_TYPE( pVal->ulPropTag) == PT_NULL)) { MAPI_TRACE1( "%s {NULL}\n", pTag); } else if (pVal && (PROP_TYPE( pVal->ulPropTag) == PT_ERROR)) { MAPI_TRACE1( "%s {Error retrieving property}\n", pTag); } else { MAPI_TRACE1( "%s invalid value, expecting binary\n", pTag); } if (pVal) MAPIFreeBuffer( pVal); }
BOOL CMapiApi::LogOn( void) { if (!m_initialized) { MAPI_TRACE0( "Tried to LogOn before initializing MAPI\n"); return( FALSE); } if (m_lpSession) return( TRUE); HRESULT hr; hr = MAPILogonEx( 0, // might need to be passed in HWND NULL, // profile name, 64 char max (LPTSTR) NULL, // profile password, 64 char max (LPTSTR) // MAPI_NEW_SESSION | MAPI_NO_MAIL | MAPI_LOGON_UI | MAPI_EXPLICIT_PROFILE, // MAPI_NEW_SESSION | MAPI_NO_MAIL | MAPI_LOGON_UI, // MAPI_NO_MAIL | MAPI_LOGON_UI, MAPI_NO_MAIL | MAPI_USE_DEFAULT | MAPI_EXTENDED | MAPI_NEW_SESSION, &m_lpSession); if (FAILED(hr)) { m_lpSession = NULL; MAPI_TRACE2( "LogOn failed: 0x%lx, %d\n", (long)hr, (int)hr); return( FALSE); } MAPI_TRACE0( "MAPI Logged on\n"); return( TRUE); }
BOOL CMapiFolderContents::GetNext( ULONG *pcbEid, LPENTRYID *ppEid, ULONG *poType, BOOL *pDone) { *pDone = FALSE; if (m_failure) return( FALSE); if (!m_lpFolder) { if (!SetUpIter()) { m_failure = TRUE; return( FALSE); } if (!m_count) { *pDone = TRUE; return( TRUE); } } int cNumRows = 0; LPSRowSet lpRow = NULL; HRESULT hr = m_lpTable->QueryRows( 1, 0, &lpRow); if(HR_FAILED( hr)) { m_lastError = hr; m_failure = TRUE; MAPI_TRACE2( "CMapiFolderContents - QueryRows failed: 0x%lx, %d\n", (long)hr, (int)hr); return( FALSE); } if(lpRow) { cNumRows = lpRow->cRows; if (cNumRows) { LPENTRYID lpEID = (LPENTRYID) lpRow->aRow[0].lpProps[ieidPR_ENTRYID].Value.bin.lpb; ULONG cbEID = lpRow->aRow[0].lpProps[ieidPR_ENTRYID].Value.bin.cb; ULONG oType = lpRow->aRow[0].lpProps[ieidPR_OBJECT_TYPE].Value.ul; if (m_lastCbEid != cbEID) { if (m_lastLpEid) delete m_lastLpEid; m_lastLpEid = new BYTE[cbEID]; m_lastCbEid = cbEID; } memcpy( m_lastLpEid, lpEID, cbEID); *ppEid = (LPENTRYID) m_lastLpEid; *pcbEid = cbEID; *poType = oType; } else *pDone = TRUE; CMapiApi::FreeProws( lpRow); } else *pDone = TRUE; return( TRUE); }
BOOL CMapiApi::OpenMdbEntry( LPMDB lpMdb, ULONG cbEntry, LPENTRYID pEntryId, LPUNKNOWN *ppOpen) { ULONG ulObjType; HRESULT hr; hr = m_lpSession->OpenEntry(cbEntry, pEntryId, NULL, 0, &ulObjType, (LPUNKNOWN *) ppOpen); if (FAILED(hr)) { MAPI_TRACE2( "OpenMdbEntry failed: 0x%lx, %d\n", (long)hr, (int)hr); return( FALSE); } return( TRUE); }
void CMapiApi::ReportStringProp( const char *pTag, LPSPropValue pVal) { if ( pVal && (PROP_TYPE( pVal->ulPropTag) == PT_TSTRING)) { nsCString val((LPCTSTR) (pVal->Value.LPSZ)); MAPI_TRACE2( "%s %s\n", pTag, (const char *)val); } else if (pVal && (PROP_TYPE( pVal->ulPropTag) == PT_NULL)) { MAPI_TRACE1( "%s {NULL}\n", pTag); } else if (pVal && (PROP_TYPE( pVal->ulPropTag) == PT_ERROR)) { MAPI_TRACE1( "%s {Error retrieving property}\n", pTag); } else { MAPI_TRACE1( "%s invalid value, expecting string\n", pTag); } if (pVal) MAPIFreeBuffer( pVal); }
BOOL CMapiApi::Initialize( void) { if (m_initialized) return( TRUE); HRESULT hr; hr = MAPIInitialize( NULL); if (FAILED(hr)) { MAPI_TRACE2( "MAPI Initialize failed: 0x%lx, %d\n", (long)hr, (int)hr); return( FALSE); } m_initialized = TRUE; MAPI_TRACE0( "MAPI Initialized\n"); return( TRUE); }
BOOL CMsgStore::Open( LPMAPISESSION pSession, LPMDB *ppMdb) { if ( m_lpMdb) { if (ppMdb) *ppMdb = m_lpMdb; return( TRUE); } BOOL bResult = TRUE; HRESULT hr = pSession->OpenMsgStore( NULL, m_cbEid, (LPENTRYID)m_lpEid, NULL, MDB_NO_MAIL, &m_lpMdb); // MDB pointer if (HR_FAILED( hr)) { m_lpMdb = NULL; MAPI_TRACE2( "OpenMsgStore failed: 0x%lx, %d\n", (long)hr, (int)hr); bResult = FALSE; } if (ppMdb) *ppMdb = m_lpMdb; return( bResult); }
BOOL CGetStoreFoldersIter::HandleHierarchyItem( ULONG oType, ULONG cb, LPENTRYID pEntry) { if (oType == MAPI_FOLDER) { LPMAPIFOLDER pFolder; if (m_pApi->OpenEntry( cb, pEntry, (LPUNKNOWN *) &pFolder)) { LPSPropValue pVal; nsString name; pVal = m_pApi->GetMapiProperty( pFolder, PR_CONTAINER_CLASS); if (pVal) m_pApi->GetStringFromProp( pVal, name); else name.Truncate(); if ((name.IsEmpty() && m_isMail) || (!ExcludeFolderClass(name.get()))) { pVal = m_pApi->GetMapiProperty( pFolder, PR_DISPLAY_NAME); m_pApi->GetStringFromProp( pVal, name); CMapiFolder *pNewFolder = new CMapiFolder(name.get(), cb, pEntry, m_depth); m_pList->AddItem( pNewFolder); pVal = m_pApi->GetMapiProperty( pFolder, PR_FOLDER_TYPE); MAPI_TRACE2( "Type: %d, name: %s\n", m_pApi->GetLongFromProp( pVal), (const char *)name); // m_pApi->ListProperties( pFolder); CGetStoreFoldersIter nextIter( m_pApi, *m_pList, m_depth + 1, m_isMail); m_pApi->IterateHierarchy( &nextIter, pFolder); } pFolder->Release(); } else { MAPI_TRACE0( "GetStoreFolders - HandleHierarchyItem: Error opening folder entry.\n"); return( FALSE); } } else MAPI_TRACE1( "GetStoreFolders - HandleHierarchyItem: Unhandled ObjectType: %ld\n", oType); return( TRUE); }
void CMapiApi::GetStoreInfo( CMapiFolder *pFolder, long *pSzContents) { HRESULT hr; LPMDB lpMdb; if (pSzContents) *pSzContents = 0; if (!OpenStore( pFolder->GetCBEntryID(), pFolder->GetEntryID(), &lpMdb)) return; LPSPropValue pVal; /* pVal = GetMapiProperty( lpMdb, PR_DISPLAY_NAME); ReportStringProp( " Message store name:", pVal); pVal = GetMapiProperty( lpMdb, PR_MDB_PROVIDER); ReportUIDProp( " Message store provider:", pVal); pVal = GetMapiProperty( lpMdb, PR_COMMENT); ReportStringProp( " Message comment:", pVal); pVal = GetMapiProperty( lpMdb, PR_ACCESS_LEVEL); ReportLongProp( " Message store Access Level:", pVal); pVal = GetMapiProperty( lpMdb, PR_STORE_SUPPORT_MASK); ReportLongProp( " Message store support mask:", pVal); pVal = GetMapiProperty( lpMdb, PR_STORE_STATE); ReportLongProp( " Message store state:", pVal); pVal = GetMapiProperty( lpMdb, PR_OBJECT_TYPE); ReportLongProp( " Message store object type:", pVal); pVal = GetMapiProperty( lpMdb, PR_VALID_FOLDER_MASK); ReportLongProp( " Message store valid folder mask:", pVal); pVal = GetMapiProperty( lpMdb, 0x8001001e); ReportStringProp( " Message prop 0x8001001e:", pVal); // This key appears to be the OMI Account Manager account that corresponds // to this message store. This is important for IMAP accounts // since we may not want to import messages from an IMAP store! // Seems silly if you ask me! // In order to test this, we'll need the registry key to look under to determine // if it contains the "IMAP Server" value, if it does then we are an // IMAP store, if not, then we are a non-IMAP store - which may always mean // a regular store that should be imported. pVal = GetMapiProperty( lpMdb, 0x80000003); ReportLongProp( " Message prop 0x80000003:", pVal); // ListProperties( lpMdb); */ pVal = GetMapiProperty( lpMdb, PR_IPM_SUBTREE_ENTRYID); if (pVal) { ULONG cbEntry; LPENTRYID pEntry; LPMAPIFOLDER lpSubTree = NULL; if (GetEntryIdFromProp( pVal, cbEntry, pEntry)) { // Open up the folder! ULONG ulObjType; hr = lpMdb->OpenEntry( cbEntry, pEntry, NULL, 0, &ulObjType, (LPUNKNOWN *) &lpSubTree); MAPIFreeBuffer( pEntry); if (SUCCEEDED( hr) && lpSubTree) { // Find out if there are any contents in the // tree. LPMAPITABLE lpTable; hr = lpSubTree->GetHierarchyTable( 0, &lpTable); if (HR_FAILED(hr)) { MAPI_TRACE2( "GetStoreInfo: GetHierarchyTable failed: 0x%lx, %d\n", (long)hr, (int)hr); } else { ULONG rowCount; hr = lpTable->GetRowCount( 0, &rowCount); lpTable->Release(); if (SUCCEEDED( hr) && pSzContents) *pSzContents = (long) rowCount; } lpSubTree->Release(); } } } }
BOOL CMapiApi::IterateStores( CMapiFolderList& stores) { stores.ClearAll(); if (!m_lpSession) { MAPI_TRACE0( "IterateStores called before session is open\n"); m_lastError = -1; return( FALSE); } HRESULT hr; /* -- Some Microsoft sample code just to see if things are working --- *//* ULONG cbEIDStore; LPENTRYID lpEIDStore; hr = HrMAPIFindDefaultMsgStore( m_lpSession, &cbEIDStore, &lpEIDStore); if (HR_FAILED(hr)) { MAPI_TRACE0( "Default message store not found\n"); // MessageBox(NULL,"Message Store Not Found",NULL,MB_OK); } else { LPMDB lpStore; MAPI_TRACE0( "Default Message store FOUND\n"); hr = m_lpSession->OpenMsgStore( NULL, cbEIDStore, lpEIDStore, NULL, MDB_NO_MAIL | MDB_NO_DIALOG, &lpStore); if (HR_FAILED(hr)) { MAPI_TRACE1( "Unable to open default message store: 0x%lx\n", hr); } else { MAPI_TRACE0( "Default message store OPENED\n"); lpStore->Release(); } } */ LPMAPITABLE lpTable; hr = m_lpSession->GetMsgStoresTable( 0, &lpTable); if (FAILED(hr)) { MAPI_TRACE0( "GetMsgStoresTable failed\n"); m_lastError = hr; return( FALSE); } ULONG rowCount; hr = lpTable->GetRowCount( 0, &rowCount); MAPI_TRACE1( "MsgStores Table rowCount: %ld\n", rowCount); hr = lpTable->SetColumns( (LPSPropTagArray)&ptaTbl, 0); if (FAILED(hr)) { lpTable->Release(); MAPI_TRACE2( "SetColumns failed: 0x%lx, %d\n", (long)hr, (int)hr); m_lastError = hr; return( FALSE); } hr = lpTable->SeekRow( BOOKMARK_BEGINNING, 0, NULL); if (FAILED(hr)) { lpTable->Release(); MAPI_TRACE2( "SeekRow failed: 0x%lx, %d\n", (long)hr, (int)hr); m_lastError = hr; return( FALSE); } int cNumRows = 0; LPSRowSet lpRow; BOOL keepGoing = TRUE; BOOL bResult = TRUE; do { lpRow = NULL; hr = lpTable->QueryRows( 1, 0, &lpRow); if(HR_FAILED(hr)) { MAPI_TRACE2( "QueryRows failed: 0x%lx, %d\n", (long)hr, (int)hr); bResult = FALSE; m_lastError = hr; break; } if(lpRow) { cNumRows = lpRow->cRows; if (cNumRows) { LPCTSTR lpStr = (LPCTSTR) lpRow->aRow[0].lpProps[itblPR_DISPLAY_NAME].Value.LPSZ; LPENTRYID lpEID = (LPENTRYID) lpRow->aRow[0].lpProps[itblPR_ENTRYID].Value.bin.lpb; ULONG cbEID = lpRow->aRow[0].lpProps[itblPR_ENTRYID].Value.bin.cb; // In the future, GetStoreInfo needs to somehow return // whether or not the store is from an IMAP server. // Currently, GetStoreInfo opens the store and attempts // to get the hierarchy tree. If the tree is empty or // does not exist, then szContents will be zero. We'll // assume that any store that doesn't have anything in // it's hierarchy tree is not a store we want to import - // there would be nothing to import from anyway! // Currently, this does exclude IMAP server accounts // which is the desired behaviour. int strLen = strlen(lpStr); PRUnichar * pwszStr = (PRUnichar *) nsMemory::Alloc((strLen + 1) * sizeof(WCHAR)); if (!pwszStr) { // out of memory FreeProws( lpRow); lpTable->Release(); return FALSE; } ::MultiByteToWideChar(CP_ACP, 0, lpStr, strlen(lpStr) + 1, pwszStr, (strLen + 1) * sizeof(WCHAR)); CMapiFolder *pFolder = new CMapiFolder( pwszStr, cbEID, lpEID, 0, MAPI_STORE); nsMemory::Free(pwszStr); long szContents = 1; GetStoreInfo( pFolder, &szContents); MAPI_TRACE1( " DisplayName: %s\n", lpStr); if (szContents) { stores.AddItem( pFolder); } else { delete pFolder; MAPI_TRACE0( " ^^^^^ Not added to store list\n"); } keepGoing = TRUE; } FreeProws( lpRow); } } while ( SUCCEEDED(hr) && cNumRows && lpRow && keepGoing); lpTable->Release(); return( bResult); }
BOOL CMapiApi::IterateHierarchy( CMapiHierarchyIter *pIter, LPMAPIFOLDER pFolder, ULONG flags) { // flags can be CONVENIENT_DEPTH or 0 // CONVENIENT_DEPTH will return all depths I believe instead // of just children HRESULT hr; LPMAPITABLE lpTable; hr = pFolder->GetHierarchyTable( flags, &lpTable); if (HR_FAILED(hr)) { m_lastError = hr; MAPI_TRACE2( "IterateHierarchy: GetContentsTable failed: 0x%lx, %d\n", (long)hr, (int)hr); return( FALSE); } ULONG rowCount; hr = lpTable->GetRowCount( 0, &rowCount); if (!rowCount) { lpTable->Release(); return( TRUE); } hr = lpTable->SetColumns( (LPSPropTagArray)&ptaEid, 0); if (HR_FAILED(hr)) { m_lastError = hr; lpTable->Release(); MAPI_TRACE2( "IterateHierarchy: SetColumns failed: 0x%lx, %d\n", (long)hr, (int)hr); return( FALSE); } hr = lpTable->SeekRow( BOOKMARK_BEGINNING, 0, NULL); if (HR_FAILED(hr)) { m_lastError = hr; lpTable->Release(); MAPI_TRACE2( "IterateHierarchy: SeekRow failed: 0x%lx, %d\n", (long)hr, (int)hr); return( FALSE); } int cNumRows = 0; LPSRowSet lpRow; BOOL keepGoing = TRUE; BOOL bResult = TRUE; do { lpRow = NULL; hr = lpTable->QueryRows( 1, 0, &lpRow); if(HR_FAILED(hr)) { MAPI_TRACE2( "QueryRows failed: 0x%lx, %d\n", (long)hr, (int)hr); m_lastError = hr; bResult = FALSE; break; } if(lpRow) { cNumRows = lpRow->cRows; if (cNumRows) { LPENTRYID lpEntry = (LPENTRYID) lpRow->aRow[0].lpProps[ieidPR_ENTRYID].Value.bin.lpb; ULONG cb = lpRow->aRow[0].lpProps[ieidPR_ENTRYID].Value.bin.cb; ULONG oType = lpRow->aRow[0].lpProps[ieidPR_OBJECT_TYPE].Value.ul; if (pIter) keepGoing = pIter->HandleHierarchyItem( oType, cb, lpEntry); else keepGoing = HandleHierarchyItem( oType, cb, lpEntry); } FreeProws( lpRow); } } while ( SUCCEEDED(hr) && cNumRows && lpRow && keepGoing); lpTable->Release(); if (bResult && !keepGoing) bResult = FALSE; return( bResult); }
BOOL CMapiApi::IterateContents( CMapiContentIter *pIter, LPMAPIFOLDER pFolder, ULONG flags) { // flags can be 0 or MAPI_ASSOCIATED // MAPI_ASSOCIATED is usually used for forms and views HRESULT hr; LPMAPITABLE lpTable; hr = pFolder->GetContentsTable( flags, &lpTable); if (FAILED(hr)) { MAPI_TRACE2( "GetContentsTable failed: 0x%lx, %d\n", (long)hr, (int)hr); return( FALSE); } ULONG rowCount; hr = lpTable->GetRowCount( 0, &rowCount); if (!rowCount) { MAPI_TRACE0( " Empty Table\n"); } hr = lpTable->SetColumns( (LPSPropTagArray)&ptaEid, 0); if (FAILED(hr)) { lpTable->Release(); MAPI_TRACE2( "SetColumns failed: 0x%lx, %d\n", (long)hr, (int)hr); return( FALSE); } hr = lpTable->SeekRow( BOOKMARK_BEGINNING, 0, NULL); if (FAILED(hr)) { lpTable->Release(); MAPI_TRACE2( "SeekRow failed: 0x%lx, %d\n", (long)hr, (int)hr); return( FALSE); } int cNumRows = 0; LPSRowSet lpRow; BOOL keepGoing = TRUE; BOOL bResult = TRUE; do { lpRow = NULL; hr = lpTable->QueryRows( 1, 0, &lpRow); if(HR_FAILED(hr)) { MAPI_TRACE2( "QueryRows failed: 0x%lx, %d\n", (long)hr, (int)hr); bResult = FALSE; break; } if(lpRow) { cNumRows = lpRow->cRows; if (cNumRows) { LPENTRYID lpEID = (LPENTRYID) lpRow->aRow[0].lpProps[ieidPR_ENTRYID].Value.bin.lpb; ULONG cbEID = lpRow->aRow[0].lpProps[ieidPR_ENTRYID].Value.bin.cb; ULONG oType = lpRow->aRow[0].lpProps[ieidPR_OBJECT_TYPE].Value.ul; keepGoing = HandleContentsItem( oType, cbEID, lpEID); MAPI_TRACE1( " ObjectType: %ld\n", oType); } FreeProws( lpRow); } } while ( SUCCEEDED(hr) && cNumRows && lpRow && keepGoing); lpTable->Release(); return( bResult); }
BOOL CMapiMessage::GetAttachmentInfo( int idx) { ClearTempAttachFile(); BOOL bResult = TRUE; if ((idx < 0) || (idx >= (int)m_attachNums.Length())) { return( FALSE); } DWORD aNum = m_attachNums[idx]; LPATTACH lpAttach = NULL; HRESULT hr = m_lpMsg->OpenAttach( aNum, NULL, 0, &lpAttach); if (HR_FAILED( hr)) { MAPI_TRACE2( "\t\t****Attachment error, unable to open attachment: %d, 0x%lx\r\n", idx, hr); return( FALSE); } LPSPropValue pVal; pVal = CMapiApi::GetMapiProperty( lpAttach, PR_ATTACH_MIME_TAG); if (pVal) CMapiApi::GetStringFromProp( pVal, m_attachMimeType); else m_attachMimeType.Truncate(); pVal = CMapiApi::GetMapiProperty( lpAttach, PR_ATTACH_METHOD); if (pVal) { LONG aMethod = CMapiApi::GetLongFromProp( pVal); if ((aMethod == ATTACH_BY_REF_ONLY) || (aMethod == ATTACH_BY_REFERENCE) || (aMethod == ATTACH_BY_REF_RESOLVE)) { m_attachPath.Truncate(); pVal = CMapiApi::GetMapiProperty( lpAttach, PR_ATTACH_PATHNAME); if (pVal) CMapiApi::GetStringFromProp( pVal, m_attachPath); MAPI_TRACE2("\t\t** Attachment #%d by ref: %s\r\n", idx, m_attachPath.get()); m_ownsAttachFile = FALSE; } else if (aMethod == ATTACH_BY_VALUE) { MAPI_TRACE1( "\t\t** Attachment #%d by value.\r\n", idx); bResult = CopyBinAttachToFile( lpAttach); } else if (aMethod == ATTACH_OLE) { MAPI_TRACE1( "\t\t** Attachment #%d by OLE - yuck!!!\r\n", idx); } else if (aMethod == ATTACH_EMBEDDED_MSG) { MAPI_TRACE1( "\t\t** Attachment #%d by Embedded Message??\r\n", idx); } else { MAPI_TRACE2( "\t\t** Attachment #%d unknown attachment method - 0x%lx\r\n", idx, aMethod); bResult = FALSE; } } else bResult = FALSE; nsCString fName, fExt; pVal = CMapiApi::GetMapiProperty( lpAttach, PR_ATTACH_LONG_FILENAME); if (pVal) CMapiApi::GetStringFromProp( pVal, fName); pVal = CMapiApi::GetMapiProperty( lpAttach, PR_ATTACH_EXTENSION); if (pVal) CMapiApi::GetStringFromProp( pVal, fExt); pVal = CMapiApi::GetMapiProperty( lpAttach, PR_ATTACH_SIZE); long sz = 0; if (pVal) sz = CMapiApi::GetLongFromProp( pVal); /* // I have no idea how this tag is used, how to interpret it's value, etc. // Fortunately, the Microsoft documentation is ABSOLUTELY NO HELP AT ALL. In fact, // if one goes by the docs and sample code, this tag is completely 100% useless. I'm // sure it has some important meaning which will one day be obvious, but for now, // it is ignored. pVal = CMapiApi::GetMapiProperty( lpAttach, PR_ATTACH_TAG); if (pVal) { ::MAPIFreeBuffer( pVal); } */ MAPI_TRACE1("\t\t\t--- Mime type: %s\r\n", m_attachMimeType.get()); MAPI_TRACE2("\t\t\t--- File name: %s, extension: %s\r\n", fName.get(), fExt.get()); MAPI_TRACE1("\t\t\t--- Size: %ld\r\n", sz); if (fExt.IsEmpty()) { int idx = fName.RFindChar( '.'); if (idx != -1) fName.Right( fExt, fName.Length() - idx); } if ((fName.RFindChar( '.') == -1) && !fExt.IsEmpty()) { fName += "."; fName += fExt; } m_attachFileName = fName; if (m_attachMimeType.IsEmpty()) { PRUint8 *pType = NULL; if (!fExt.IsEmpty()) { pType = CMimeTypes::GetMimeType( fExt); } if (pType) m_attachMimeType = (PC_S8)pType; else m_attachMimeType = "application/octet-stream"; } pVal = CMapiApi::GetMapiProperty( lpAttach, PR_ATTACH_TRANSPORT_NAME); if (pVal) { CMapiApi::GetStringFromProp( pVal, fName); MAPI_TRACE1("\t\t\t--- Transport name: %s\r\n", fName.get()); } lpAttach->Release(); return( bResult); }
bool CMapiMessage::AddAttachment(DWORD aNum) { LPATTACH lpAttach = NULL; HRESULT hr = m_lpMsg->OpenAttach(aNum, NULL, 0, &lpAttach); if (HR_FAILED(hr)) { MAPI_TRACE2("\t\t****Attachment error, unable to open attachment: %d, 0x%lx\r\n", idx, hr); return false; } bool bResult = false; attach_data *data = new attach_data; ULONG aMethod; if (data) { bResult = true; // 1. Get the file that contains the attachment data LPSPropValue pVal = CMapiApi::GetMapiProperty(lpAttach, PR_ATTACH_METHOD); if (pVal) { aMethod = CMapiApi::GetLongFromProp(pVal); switch (aMethod) { case ATTACH_BY_VALUE: MAPI_TRACE1("\t\t** Attachment #%d by value.\r\n", aNum); bResult = CopyBinAttachToFile(lpAttach, getter_AddRefs(data->tmp_file)); data->delete_file = true; break; case ATTACH_BY_REFERENCE: case ATTACH_BY_REF_RESOLVE: case ATTACH_BY_REF_ONLY: pVal = CMapiApi::GetMapiProperty(lpAttach, PR_ATTACH_PATHNAME_W); if (pVal) { nsCString path; CMapiApi::GetStringFromProp(pVal, path); nsresult rv; data->tmp_file = do_CreateInstance(NS_LOCAL_FILE_CONTRACTID, &rv); if (NS_FAILED(rv) || !data->tmp_file) { MAPI_TRACE0("*** Error creating file spec for attachment\n"); bResult = false; } else data->tmp_file->InitWithNativePath(path); } MAPI_TRACE2("\t\t** Attachment #%d by ref: %s\r\n", aNum, m_attachPath.get()); break; case ATTACH_EMBEDDED_MSG: MAPI_TRACE1("\t\t** Attachment #%d by Embedded Message??\r\n", aNum); // Convert the embedded IMessage from PR_ATTACH_DATA_OBJ to rfc822 attachment // (see http://msdn.microsoft.com/en-us/library/cc842329.aspx) // This is a recursive call. bResult = CopyMsgAttachToFile(lpAttach, getter_AddRefs(data->tmp_file)); data->delete_file = true; break; case ATTACH_OLE: MAPI_TRACE1("\t\t** Attachment #%d by OLE - yuck!!!\r\n", aNum); break; default: MAPI_TRACE2("\t\t** Attachment #%d unknown attachment method - 0x%lx\r\n", aNum, aMethod); bResult = false; } } else bResult = false; if (bResult) bResult = data->tmp_file; if (bResult) { bool isFile = false; bool exists = false; data->tmp_file->Exists(&exists); data->tmp_file->IsFile(&isFile); if (!exists || !isFile) { bResult = false; MAPI_TRACE0("Attachment file does not exist\n"); } } if (bResult) bResult = GetURL(data->tmp_file, getter_AddRefs(data->orig_url)); if (bResult) { // Now we have the file; proceed to the other properties data->encoding = NS_strdup(ENCODING_BINARY); nsString fname, fext; pVal = CMapiApi::GetMapiProperty(lpAttach, PR_ATTACH_LONG_FILENAME_W); if (!pVal) pVal = CMapiApi::GetMapiProperty(lpAttach, PR_ATTACH_FILENAME_W); CMapiApi::GetStringFromProp(pVal, fname); pVal = CMapiApi::GetMapiProperty(lpAttach, PR_ATTACH_EXTENSION_W); CMapiApi::GetStringFromProp(pVal, fext); MAPI_TRACE2("\t\t\t--- File name: %s, extension: %s\r\n", fname.get(), fext.get()); if (fext.IsEmpty()) { int idx = fname.RFindChar(L'.'); if (idx != -1) fext = Substring(fname, idx); } else if (fname.RFindChar(L'.') == -1) { fname += L"."; fname += fext; } if (fname.IsEmpty()) { // If no description use "Attachment i" format. fname = L"Attachment "; fname.AppendInt(static_cast<uint32_t>(aNum)); } data->real_name = ToNewUTF8String(fname); nsCString tmp; // We have converted it to the rfc822 document if (aMethod == ATTACH_EMBEDDED_MSG) { data->type = NS_strdup(MESSAGE_RFC822); } else { pVal = CMapiApi::GetMapiProperty(lpAttach, PR_ATTACH_MIME_TAG_A); CMapiApi::GetStringFromProp(pVal, tmp); MAPI_TRACE1("\t\t\t--- Mime type: %s\r\n", tmp.get()); if (tmp.IsEmpty()) { uint8_t *pType = NULL; if (!fext.IsEmpty()) { pType = CMimeTypes::GetMimeType(fext); } if (pType) data->type = NS_strdup((PC_S8)pType); else data->type = NS_strdup(APPLICATION_OCTET_STREAM); } else data->type = ToNewCString(tmp); } pVal = CMapiApi::GetMapiProperty(lpAttach, PR_ATTACH_CONTENT_ID_A); CMapiApi::GetStringFromProp(pVal, tmp); if (!tmp.IsEmpty()) data->cid = ToNewCString(tmp); } if (bResult) { // Now we need to decide if this attachment is embedded or not. // At first, I tried to simply check for the presence of the Content-Id. // But it turned out that this method is unreliable, since there exist cases // when an attachment has a Content-Id while isn't embedded (even in a message // with a plain-text body!). So next I tried to look for <img> tags that contain // the found Content-Id. But this is unreliable, too, because there exist cases // where other places of HTML reference the embedded messages (e.g. it may be // a background of a table cell, or some CSS; further, it is possible that the // reference to an embedded object is not in the main body, but in another // embedded object - like body references a CSS attachment that in turn references // a picture as a background of its element). From the other hand, it's unreliable // to relax the search criteria to any occurence of the Content-Id string in the body - // partly because the string may be simply in a text or other non-referencing part, // partly because of the abovementioned possibility that the reference is outside // the body at all. // There exist the PR_ATTACH_FLAGS property of the attachment. The MS documentation // tells about two possible flags in it: ATT_INVISIBLE_IN_HTML and ATT_INVISIBLE_IN_RTF. // There is at least one more undocumented flag: ATT_MHTML_REF. Some sources in Internet // suggest simply check for the latter flag to distinguish between the embedded // and ordinary attachments. But my observations indicate that even if the flags // don't include ATT_MHTML_REF, the attachment is still may be embedded. // However, my observations always show that the message is embedded if the flags // is not 0. // So now I will simply test for the non-zero flags to decide whether the attachment // is embedded or not. Possible advantage is reliability (I hope). // Another advantage is that it's much faster than search the body for Content-Id. DWORD flags = 0; pVal = CMapiApi::GetMapiProperty(lpAttach, PR_ATTACH_FLAGS); if (pVal) flags = CMapiApi::GetLongFromProp(pVal); if (m_bodyIsHtml && data->cid && (flags != 0)) // this is the embedded attachment m_embattachments.push_back(data); else // this is ordinary attachment m_stdattachments.push_back(data); } else { delete data; } } lpAttach->Release(); return bResult; }