/**********************************************************************/ /** Microsoft Windows/NT **/ /** Copyright(c) Microsoft Corporation, 1997 - 1999 **/ /**********************************************************************/ /* server.cpp IPSecMon machine node handler FILE HISTORY: */ #include "stdafx.h" #include "spddb.h" #include "apinfo.h" #include "server.h" // Server definition #include "servpp.h" #include "logdatanode.h" #include "wirelessnode.h" #include "objplus.h" #include "ipaddres.h" CTimerMgr g_TimerMgr; CHashTable g_HashTable; extern ULONG RevertDwordBytes(DWORD dw); ///////////////////////////////////////////////////////////////////// // // CTimerArray implementation // ///////////////////////////////////////////////////////////////////// CTimerMgr::CTimerMgr() { } CTimerMgr::~CTimerMgr() { CTimerDesc * pTimerDesc; for (int i = (int)GetUpperBound(); i >= 0; --i) { pTimerDesc = GetAt(i); if (pTimerDesc->uTimer != 0) FreeTimer(i); delete pTimerDesc; } } int CTimerMgr::AllocateTimer ( ITFSNode * pNode, CIpsmServer * pServer, UINT uTimerValue, TIMERPROC TimerProc ) { int i = 0; CTimerDesc *pTimerDesc = NULL; CSingleLock slTimerMgr(&m_csTimerMgr); // get a lock on the timer mgr for the scope of this // function. slTimerMgr.Lock(); // look for an empty slot for (i = (int)GetUpperBound(); i >= 0; --i) { pTimerDesc = GetAt(i); if (pTimerDesc->uTimer == 0) break; } // did we find one? if not allocate one if (i < 0) { try { pTimerDesc = new CTimerDesc; Add(pTimerDesc); } catch(...) { // // Free up memory allocated for the timer // if (pTimerDesc != NULL) { delete pTimerDesc; pTimerDesc = NULL; } return -1; } i = (int)GetUpperBound(); } pTimerDesc->uTimer = SetTimer(NULL, (UINT) i, uTimerValue, TimerProc); if (pTimerDesc->uTimer == 0) return -1; pTimerDesc->spNode.Set(pNode); pTimerDesc->pServer = pServer; pTimerDesc->timerProc = TimerProc; return i; } void CTimerMgr::FreeTimer ( UINT_PTR uEventId ) { CSingleLock slTimerMgr(&m_csTimerMgr); // get a lock on the timer mgr for the scope of this // function. slTimerMgr.Lock(); CTimerDesc * pTimerDesc; Assert(uEventId <= (UINT) GetUpperBound()); if (uEventId > (UINT) GetUpperBound()) return; pTimerDesc = GetAt((int) uEventId); ::KillTimer(NULL, pTimerDesc->uTimer); pTimerDesc->spNode.Release(); pTimerDesc->pServer = NULL; pTimerDesc->uTimer = 0; } CTimerDesc * CTimerMgr::GetTimerDesc ( UINT_PTR uEventId ) { CSingleLock slTimerMgr(&m_csTimerMgr); // the caller of this function should lock the timer mgr // while accessing this pointer CTimerDesc * pTimerDesc; for (int i = (int)GetUpperBound(); i >= 0; --i) { pTimerDesc = GetAt(i); if (pTimerDesc->uTimer == (UINT) uEventId) return pTimerDesc; } return NULL; } void CTimerMgr::ChangeInterval ( UINT_PTR uEventId, UINT uNewInterval ) { CSingleLock slTimerMgr(&m_csTimerMgr); // get a lock on the timer mgr for the scope of this // function. slTimerMgr.Lock(); Assert(uEventId <= (UINT) GetUpperBound()); if (uEventId > (UINT) GetUpperBound()) return; CTimerDesc tempTimerDesc; CTimerDesc * pTimerDesc; pTimerDesc = GetAt((int) uEventId); // kill the old timer ::KillTimer(NULL, pTimerDesc->uTimer); // set a new one with the new interval pTimerDesc->uTimer = ::SetTimer( NULL, (UINT) uEventId, uNewInterval, pTimerDesc->timerProc); } VOID CALLBACK StatisticsTimerProc ( HWND hwnd, UINT uMsg, UINT_PTR idEvent, DWORD dwTime ) { AFX_MANAGE_STATE(AfxGetStaticModuleState()); CSingleLock slTimerMgr(&g_TimerMgr.m_csTimerMgr); // get a lock on the timer mgr for the scope of this // function. slTimerMgr.Lock(); // on the timer, get the timer descriptor for this event // Call into the appropriate handler to update the stats. CTimerDesc * pTimerDesc; pTimerDesc = g_TimerMgr.GetTimerDesc(idEvent); if (pTimerDesc != NULL) { pTimerDesc->pServer->m_bStatsOnly = TRUE; pTimerDesc->pServer->OnRefreshStats( pTimerDesc->spNode, NULL, NULL, 0, 0); pTimerDesc->pServer->m_bStatsOnly = FALSE; } } /*--------------------------------------------------------------------------- Class CIpsmServer implementation ---------------------------------------------------------------------------*/ /*-------------------------------------------------------------------------- Constructor and destructor Description Author: NSun ---------------------------------------------------------------------------*/ CIpsmServer::CIpsmServer ( ITFSComponentData * pComponentData ) : CMTIpsmHandler(pComponentData), m_bStatsOnly(FALSE), m_StatsTimerId(-1), m_dwOptions(0) { AFX_MANAGE_STATE(AfxGetStaticModuleState()); } CIpsmServer::~CIpsmServer() { /* if (m_StatsDlg.GetSafeHwnd()) { WaitForModelessDlgClose(&m_StatsDlg); } */ } /*!-------------------------------------------------------------------------- CIpsmServer::InitializeNode Initializes node specific data Author: NSun ---------------------------------------------------------------------------*/ HRESULT CIpsmServer::InitializeNode ( ITFSNode * pNode ) { AFX_MANAGE_STATE(AfxGetStaticModuleState( )); HRESULT hr = hrOK; CString strTemp; HANDLE hsession; COM_PROTECT_TRY { CORg (CreateSpdInfo(&m_spSpdInfo)); CORg (CreateApDbInfo(&m_spApDbInfo)); m_spSpdInfo->SetComputerName((LPTSTR)(LPCTSTR)m_strServerAddress); m_spApDbInfo->SetComputerName((LPTSTR)(LPCTSTR)m_strServerAddress); //AfxMessageBox(m_strServerAddress, MB_YESNO); //ERASEME// #if 0 no need to open a session here as we tried to open a session when constructing the database. hr = OpenWZCDbLogSession( NULL/*(LPTSTR)(LPCTSTR)m_strServerAddress*/, 0, &hsession); if (hr == 0) { m_spSpdInfo->SetSession(hsession); } #endif //0 BuildDisplayName(&strTemp); SetDisplayName(strTemp); // Make the node immediately visible pNode->SetVisibilityState(TFS_VIS_SHOW); pNode->SetData(TFS_DATA_COOKIE, (LPARAM) pNode); pNode->SetData(TFS_DATA_IMAGEINDEX, ICON_IDX_SERVER); pNode->SetData(TFS_DATA_OPENIMAGEINDEX, ICON_IDX_SERVER); pNode->SetData(TFS_DATA_USER, (LPARAM) this); pNode->SetData(TFS_DATA_TYPE, IPSMSNAP_SERVER); SetColumnStringIDs(&aColumns[IPSMSNAP_SERVER][0]); SetColumnWidths(&aColumnWidths[IPSMSNAP_SERVER][0]); // m_StatsDlg.SetData(m_spSpdInfo); COM_PROTECT_ERROR_LABEL; } COM_PROTECT_CATCH return hr; } /*--------------------------------------------------------------------------- CIpsmServer::GetImageIndex - Author: NSun ---------------------------------------------------------------------------*/ int CIpsmServer::GetImageIndex(BOOL bOpenImage) { int nIndex = -1; switch (m_nState) { case notLoaded: nIndex = ICON_IDX_SERVER; break; case loading: nIndex = ICON_IDX_SERVER_BUSY; break; case loaded: nIndex = ICON_IDX_SERVER_CONNECTED; break; case unableToLoad: nIndex = ICON_IDX_SERVER_LOST_CONNECTION; break; default: ASSERT(FALSE); } return nIndex; } /*--------------------------------------------------------------------------- CIpsmServer::OnHaveData When the background thread enumerates nodes to be added to the UI, we get called back here. We override this to force expansion of the node so that things show up correctly. Author: NSun ---------------------------------------------------------------------------*/ void CIpsmServer::OnHaveData ( ITFSNode * pParentNode, ITFSNode * pNewNode ) { CMTIpsmHandler::OnHaveData(pParentNode, pNewNode); ExpandNode(pParentNode, TRUE); } /*--------------------------------------------------------------------------- CIpsmServer::OnHaveData Description Author: NSun ---------------------------------------------------------------------------*/ void CIpsmServer::OnHaveData ( ITFSNode * pParentNode, LPARAM Data, LPARAM Type ) { HRESULT hr = hrOK; HWND hStatsDlg = NULL; // This is how we get non-node data back from the background thread. switch (Type) { case IPSECMON_QDATA_REFRESH_STATS: { // tell all of the child nodes to clear their status caches // if any of the nodes is the selected node, then they should // repaint the window SPITFSNodeEnum spNodeEnum; SPITFSNode spCurrentNode; ULONG nNumReturned; CORg(pParentNode->GetEnum(&spNodeEnum)); CORg(spNodeEnum->Next(1, &spCurrentNode, &nNumReturned)); while (nNumReturned) { LONG_PTR dwDataType = spCurrentNode->GetData(TFS_DATA_TYPE); switch (dwDataType) { case IPFWMON_LOGDATA: { CLogDataHandler * pLogDataHandler = GETHANDLER(CLogDataHandler, spCurrentNode); pLogDataHandler->UpdateStatus(spCurrentNode); } break; case WLANMON_APDATA: { CWirelessHandler * pWirelessHandler = GETHANDLER(CWirelessHandler, spCurrentNode); pWirelessHandler->UpdateStatus(spCurrentNode); } break; default: break; } spCurrentNode.Release(); spNodeEnum->Next(1, &spCurrentNode, &nNumReturned); } } break; case IPSECMON_QDATA_FAILED: pParentNode->DeleteAllChildren(TRUE); // in OnChangeState, the sate will be changed to unableToLoad // and the error will be posted m_nState = loading; OnChangeState(pParentNode); //Also close the statistics window //hStatsDlg = m_StatsDlg.GetSafeHwnd(); if (hStatsDlg) { PostMessage(hStatsDlg, WM_CLOSE, 0, 0); } break; } COM_PROTECT_ERROR_LABEL; } /*--------------------------------------------------------------------------- Overridden base handler functions ---------------------------------------------------------------------------*/ /*--------------------------------------------------------------------------- CIpsmServer::OnAddMenuItems Description Author: NSun ---------------------------------------------------------------------------*/ STDMETHODIMP CIpsmServer::OnAddMenuItems ( ITFSNode * pNode, LPCONTEXTMENUCALLBACK pContextMenuCallback, LPDATAOBJECT lpDataObject, DATA_OBJECT_TYPES type, DWORD dwType, long * pInsertionAllowed ) { AFX_MANAGE_STATE(AfxGetStaticModuleState( )); LONG fFlags = 0; HRESULT hr = S_OK; CString strMenuItem; //TODO handle menu items here if (m_nState != loaded) { fFlags |= MF_GRAYED; } if (type == CCT_SCOPE) { if (*pInsertionAllowed & CCM_INSERTIONALLOWED_TOP) { strMenuItem.LoadString(IDS_MENU_RECONNECT); hr = LoadAndAddMenuItem( pContextMenuCallback, strMenuItem, IDS_MENU_RECONNECT, CCM_INSERTIONPOINTID_PRIMARY_TOP, 0 ); ASSERT( SUCCEEDED(hr) ); } } return hr; } /*--------------------------------------------------------------------------- CIpsmServer::OnCommand Description Author: NSun ---------------------------------------------------------------------------*/ STDMETHODIMP CIpsmServer::OnCommand ( ITFSNode * pNode, long nCommandId, DATA_OBJECT_TYPES type, LPDATAOBJECT pDataObject, DWORD dwType ) { AFX_MANAGE_STATE(AfxGetStaticModuleState( )); HRESULT hr = S_OK; switch (nCommandId) { case IDS_MENU_RECONNECT: OnRefresh(pNode, pDataObject, 0, 0, 0); break; default: break; } return hr; } /*!-------------------------------------------------------------------------- CIpsmServer::HasPropertyPages Implementation of ITFSNodeHandler::HasPropertyPages NOTE: the root node handler has to over-ride this function to handle the snapin manager property page (wizard) case!!! Author: KennT ---------------------------------------------------------------------------*/ STDMETHODIMP CIpsmServer::HasPropertyPages ( ITFSNode * pNode, LPDATAOBJECT pDataObject, DATA_OBJECT_TYPES type, DWORD dwType ) { HRESULT hr = S_FALSE; #if 0 //TODO: remove #if and #endif to re-enable property pages when ready AFX_MANAGE_STATE(AfxGetStaticModuleState()); HRESULT hr = hrOK; if (dwType & TFS_COMPDATA_CREATE) { // This is the case where we are asked to bring up property // pages when the user is adding a new snapin. These calls // are forwarded to the root node to handle. Only for the root node hr = hrOK; Assert(FALSE); // should never get here } else { // we have property pages in the normal case, but don't put the // menu up if we are not loaded yet if ( (m_nState == loaded) || (m_nState == unableToLoad) ) { hr = hrOK; } else { hr = hrFalse; } } #endif //0 return hr; } /*--------------------------------------------------------------------------- CIpsmServer::CreatePropertyPages Description Author: NSun ---------------------------------------------------------------------------*/ STDMETHODIMP CIpsmServer::CreatePropertyPages ( ITFSNode * pNode, LPPROPERTYSHEETCALLBACK lpProvider, LPDATAOBJECT pDataObject, LONG_PTR handle, DWORD dwType ) { HRESULT hr = S_FALSE; return hr; #if 0 AFX_MANAGE_STATE(AfxGetStaticModuleState()); // // Create the property page // SPIComponentData spComponentData; m_spNodeMgr->GetComponentData(&spComponentData); CMachineProperties * pMachineProp = new CMachineProperties( pNode, spComponentData, m_spTFSCompData, m_spSpdInfo, NULL, loaded == m_nState ); pMachineProp->m_strMachineName = m_strServerAddress; // fill in the auto refresh info pMachineProp->m_pageRefresh.m_dwRefreshInterval = GetAutoRefreshInterval(); pMachineProp->m_pageRefresh.m_bAutoRefresh = GetOptions() & IPSMSNAP_OPTIONS_REFRESH ? TRUE : FALSE; return pMachineProp->CreateModelessSheet(lpProvider, handle); #endif //0 } /*--------------------------------------------------------------------------- CIpsmServer::OnPropertyChange Description Author: NSun ---------------------------------------------------------------------------*/ HRESULT CIpsmServer::OnPropertyChange ( ITFSNode * pNode, LPDATAOBJECT pDataobject, DWORD dwType, LPARAM arg, LPARAM lParam ) { AFX_MANAGE_STATE(AfxGetStaticModuleState( )); CMachineProperties * pMachineProp = reinterpret_cast(lParam); LONG_PTR changeMask = 0; // tell the property page to do whatever now that we are back on the // main thread pMachineProp->OnPropertyChange(TRUE, &changeMask); //Let the main thread know that we are done pMachineProp->AcknowledgeNotify(); if (changeMask) pNode->ChangeNode(changeMask); return hrOK; } /*!-------------------------------------------------------------------------- CIpsmServer::OnDelete The base handler calls this when MMC sends a MMCN_DELETE for a scope pane item. We just call our delete command handler. Author: NSun ---------------------------------------------------------------------------*/ HRESULT CIpsmServer::OnDelete ( ITFSNode * pNode, LPARAM arg, LPARAM lParam ) { return OnDelete(pNode); } /*!-------------------------------------------------------------------------- CIpsmServer::OnNotifyExiting We override this for the server node because we don't want the icon to change when the thread goes away. Normal behavior is that the node's icon changes to a wait cursor when the background thread is running. If we are only doing stats collection, then we don't want the icon to change. Author: NSun ---------------------------------------------------------------------------*/ HRESULT CIpsmServer::OnNotifyExiting ( LPARAM lParam ) { CIpsmServerQueryObj * pQuery = (CIpsmServerQueryObj *) lParam; if (!pQuery->m_bStatsOnly) OnChangeState(m_spNode); ReleaseThreadHandler(); Unlock(); return hrOK; } /*--------------------------------------------------------------------------- Command handlers ---------------------------------------------------------------------------*/ /*!-------------------------------------------------------------------------- CIpsmServer::OnRefresh Default implementation for the refresh functionality Author: NSun ---------------------------------------------------------------------------*/ HRESULT CIpsmServer::OnRefresh ( ITFSNode * pNode, LPDATAOBJECT pDataObject, DWORD dwType, LPARAM arg, LPARAM param ) { HRESULT hr = S_OK; m_spSpdInfo->Destroy(); m_spApDbInfo->Destroy(); hr = CMTHandler::OnRefresh(pNode, pDataObject, dwType, arg, param); /* HWND hStatsDlg = m_StatsDlg.GetSafeHwnd(); if (hStatsDlg) { PostMessage(hStatsDlg, WM_UPDATE_STATS, 0, 0); } */ return hr; } /*!-------------------------------------------------------------------------- CIpsmServer::OnRefreshStats Default implementation for the Stats refresh functionality Author: NSun ---------------------------------------------------------------------------*/ HRESULT CIpsmServer::OnRefreshStats ( ITFSNode * pNode, LPDATAOBJECT pDataObject, DWORD dwType, LPARAM arg, LPARAM param ) { AFX_MANAGE_STATE(AfxGetStaticModuleState()); HRESULT hr = hrOK; SPITFSNode spNode; SPITFSNodeHandler spHandler; ITFSQueryObject * pQuery = NULL; if (m_bExpanded == FALSE) { // we cannot get statistics if the node hasn't been expanded yet return hr; } // only do stats refresh if the server was loaded correctly. if (m_nState != loaded) return hr; BOOL bLocked = IsLocked(); if (bLocked) { // cannot refresh stats if this node is locked return hr; } Lock(); //OnChangeState(pNode); pQuery = OnCreateQuery(pNode); Assert(pQuery); // notify the UI to change icon, if needed //Verify(SUCCEEDED(pComponentData->ChangeNode(this, SCOPE_PANE_CHANGE_ITEM_ICON))); Verify(StartBackgroundThread(pNode, m_spTFSCompData->GetHiddenWnd(), pQuery)); pQuery->Release(); return hrOK; } /*--------------------------------------------------------------------------- CIpsmServer::OnDelete() Description Author: NSun ---------------------------------------------------------------------------*/ HRESULT CIpsmServer::OnDelete(ITFSNode * pNode) { AFX_MANAGE_STATE(AfxGetStaticModuleState( )); HRESULT hr = S_OK; CString strMessage; AfxFormatString1(strMessage, IDS_WARN_SERVER_DELETE, m_strServerAddress); if (AfxMessageBox(strMessage, MB_YESNO) == IDYES) { // remove this node from the list, there's nothing we need to tell // the server, it's just our local list of servers SPITFSNode spParent; pNode->GetParent(&spParent); spParent->RemoveChild(pNode); } return hr; } /*--------------------------------------------------------------------------- Server manipulation functions ---------------------------------------------------------------------------*/ /*--------------------------------------------------------------------------- CIpsmServer::BuildDisplayName Builds the string that goes in the UI for this server Author: NSun ---------------------------------------------------------------------------*/ HRESULT CIpsmServer::BuildDisplayName ( CString * pstrDisplayName ) { if (pstrDisplayName) { *pstrDisplayName = GetName(); } return hrOK; } /*--------------------------------------------------------------------------- CIpsmServer::SetAutoRefresh Description Author: NSun ---------------------------------------------------------------------------*/ HRESULT CIpsmServer::SetAutoRefresh ( ITFSNode * pNode, BOOL bOn, DWORD dwRefreshInterval ) { BOOL bCurrentAutoRefresh = IsAutoRefreshEnabled(); if (bCurrentAutoRefresh && !bOn) { // turning off the timer g_TimerMgr.FreeTimer(m_StatsTimerId); } else if (!bCurrentAutoRefresh && bOn) { // gotta turn on the timer m_StatsTimerId = g_TimerMgr.AllocateTimer(pNode, this, dwRefreshInterval, StatisticsTimerProc); } else if (bOn && m_dwRefreshInterval != dwRefreshInterval) { // time to change the timer g_TimerMgr.ChangeInterval(m_StatsTimerId, dwRefreshInterval); } if (bOn) m_dwOptions |= IPSMSNAP_OPTIONS_REFRESH; else m_dwOptions &= ~IPSMSNAP_OPTIONS_REFRESH; m_dwRefreshInterval = dwRefreshInterval; return hrOK; } /*--------------------------------------------------------------------------- CIpsmServer::SetDnsResolve Description Author: Briansw ---------------------------------------------------------------------------*/ HRESULT CIpsmServer::SetDnsResolve ( ITFSNode * pNode, BOOL bEnable ) { AFX_MANAGE_STATE(AfxGetStaticModuleState()); if (bEnable) m_dwOptions |= IPSMSNAP_OPTIONS_DNS; else m_dwOptions &= ~IPSMSNAP_OPTIONS_DNS; g_HashTable.SetDnsResolve(bEnable); return hrOK; } /*--------------------------------------------------------------------------- CIpsmServer::SetAutoRefresh Description Author: NSun ---------------------------------------------------------------------------*/ void CIpsmServer::SetExtensionName() { CString strName; strName.LoadString(IDS_IPSECMON); SetDisplayName(strName); } /*!-------------------------------------------------------------------------- CIpsmServer::UpdateStandardVerbs Updates the standard verbs depending upon the state of the node Author: NSun ---------------------------------------------------------------------------*/ void CIpsmServer::UpdateConsoleVerbs ( IConsoleVerb * pConsoleVerb, LONG_PTR dwNodeType, BOOL bMultiSelect ) { BOOL bStates[ARRAYLEN(g_ConsoleVerbs)]; MMC_BUTTON_STATE * ButtonState; int i; if (bMultiSelect) { ButtonState = g_ConsoleVerbStatesMultiSel[dwNodeType]; for (i = 0; i < ARRAYLEN(g_ConsoleVerbs); bStates[i++] = TRUE); } else { ButtonState = g_ConsoleVerbStates[dwNodeType]; switch (m_nState) { case loaded: for (i = 0; i < ARRAYLEN(g_ConsoleVerbs); bStates[i++] = TRUE); break; case notLoaded: case loading: for (i = 0; i < ARRAYLEN(g_ConsoleVerbs); bStates[i++] = FALSE); break; case unableToLoad: for (i = 0; i < ARRAYLEN(g_ConsoleVerbs); bStates[i++] = FALSE); bStates[MMC_VERB_REFRESH & 0x000F] = TRUE; bStates[MMC_VERB_DELETE & 0x000F] = TRUE; bStates[MMC_VERB_PROPERTIES & 0x000F] = TRUE; break; } } EnableVerbs(pConsoleVerb, ButtonState, bStates); } /*--------------------------------------------------------------------------- Background thread functionality ---------------------------------------------------------------------------*/ /*--------------------------------------------------------------------------- CIpsmServer::OnCreateQuery Description Author: NSun ---------------------------------------------------------------------------*/ ITFSQueryObject* CIpsmServer::OnCreateQuery(ITFSNode * pNode) { CIpsmServerQueryObj* pQuery = new CIpsmServerQueryObj(m_spTFSCompData, m_spNodeMgr); pQuery->m_strServer = GetName(); pQuery->m_spSpdInfo.Set(m_spSpdInfo); pQuery->m_spApDbInfo.Set(m_spApDbInfo); pQuery->m_bStatsOnly = m_bStatsOnly; return pQuery; } /*--------------------------------------------------------------------------- CIpsmServerQueryObj::Execute() Description Author: NSun ---------------------------------------------------------------------------*/ STDMETHODIMP CIpsmServerQueryObj::Execute() { HRESULT hr = S_OK; DWORD dwActive=m_spSpdInfo->GetActiveInfo(); DWORD dwInit=m_spSpdInfo->GetInitInfo(); // DWORD dwApActive=m_spApDbInfo->GetActiveInfo(); // DWORD dwApInit=m_spApDbInfo->GetInitInfo(); DWORD dwNew = 0; DWORD dwTotal = 0; int i; //Query the data from SPD //switch(dwActive) { /*case MON_FILTER: CORg(m_spSpdInfo->EnumFWFilters()); break; */ //case MON_LOG_DATA: CORg(m_spSpdInfo->EnumLogData(&dwNew, &dwTotal)); CORg(m_spApDbInfo->EnumApData()); // break; //default: // Initial load. Ping server to see if its up //CORg(m_spSpdInfo->LoadStatistics()); // break; //} if (m_bStatsOnly) { // we post this message esentially to get back on the main thread // so that we can update the UI AddToQueue(NULL, IPSECMON_QDATA_REFRESH_STATS); return hrFalse; } { //Add the access point node SPITFSNode spWirelessNode; CWirelessHandler *pWirelessHandler = new CWirelessHandler(m_spTFSCompData); CreateContainerTFSNode( &spWirelessNode, &GUID_IpfmWirelessNodeType, pWirelessHandler, pWirelessHandler, m_spNodeMgr); pWirelessHandler->InitApData(m_spApDbInfo); pWirelessHandler->InitializeNode(spWirelessNode); AddToQueue(spWirelessNode); pWirelessHandler->Release(); //pNode->AddChild(spWirelessNode); // add the wireless log node SPITFSNode spLogDataNode; CLogDataHandler * pLogDataHandler = new CLogDataHandler(m_spTFSCompData); CreateContainerTFSNode(&spLogDataNode, &GUID_IpfmLogDataNodeType, pLogDataHandler, pLogDataHandler, m_spNodeMgr); pLogDataHandler->InitData(m_spSpdInfo); pLogDataHandler->InitializeNode(spLogDataNode); AddToQueue(spLogDataNode); pLogDataHandler->Release(); //pNode->AddChild(spLogDataNode); } COM_PROTECT_ERROR_LABEL; if (FAILED(hr)) { PostError(WIN32_FROM_HRESULT(hr)); if (m_bStatsOnly) { //If we are doing auto-refresh, tell the main thread //that the query failed AddToQueue(NULL, IPSECMON_QDATA_FAILED); } } return hrFalse; } CHashTable::CHashTable() { DWORD i; m_bDnsResolveActive=FALSE; m_bThreadRunning=FALSE; for (i=0; i < TOTAL_TABLE_SIZE; i++) { InitializeListHead(&HashTable[i]); } } DWORD CHashTable::AddPendingObject(in_addr IpAddr) { HashEntry *newEntry=new HashEntry; CSingleLock slHashLock(&m_csHashLock); slHashLock.Lock(); if (newEntry == NULL) { return ERROR_OUTOFMEMORY; } newEntry->IpAddr=IpAddr; InsertHeadList(&HashTable[PENDING_INDEX],&newEntry->Linkage); return ERROR_SUCCESS; } DWORD CHashTable::AddObject(HashEntry *pHE) { DWORD Key=HashData(pHE->IpAddr); CSingleLock slHashLock(&m_csHashLock); slHashLock.Lock(); InsertHeadList(&HashTable[Key],&pHE->Linkage); return ERROR_SUCCESS; } DWORD CHashTable::GetObject(HashEntry **ppHashEntry,in_addr IpAddr) { DWORD Key=HashData(IpAddr); HashEntry *pHE; PLIST_ENTRY pEntry; DWORD dwErr; pHE=NULL; CSingleLock slHashLock(&m_csHashLock); slHashLock.Lock(); if (!m_bDnsResolveActive) { return ERROR_NOT_READY; } // Start resolver thread if (!m_bThreadRunning) { AfxBeginThread((AFX_THREADPROC)HashResolverCallback, NULL); m_bThreadRunning=TRUE; } for ( pEntry = HashTable[Key].Flink; pEntry != &HashTable[Key]; pEntry = pEntry->Flink) { pHE = CONTAINING_RECORD(pEntry, HashEntry, Linkage); if (memcmp(&pHE->IpAddr,&IpAddr,sizeof(in_addr)) == 0) { *ppHashEntry = pHE; return ERROR_SUCCESS; } } dwErr=AddPendingObject(IpAddr); return ERROR_INVALID_PARAMETER; } DWORD CHashTable::FlushTable() { DWORD i; PLIST_ENTRY pEntry,pNextEntry; HashEntry *pHE; CSingleLock slHashLock(&m_csHashLock); slHashLock.Lock(); for (i=0; i < TOTAL_TABLE_SIZE; i++) { pEntry = HashTable[i].Flink; while ( pEntry != &HashTable[i]) { pHE = CONTAINING_RECORD(pEntry, HashEntry, Linkage); pNextEntry=pEntry->Flink; delete pHE; pEntry=pNextEntry; } InitializeListHead(&HashTable[i]); } return ERROR_SUCCESS; } CHashTable::~CHashTable() { DWORD i; PLIST_ENTRY pEntry,pNextEntry; HashEntry *pHE; m_bDnsResolveActive=FALSE; while(m_bThreadRunning) { Sleep(10); } CSingleLock slHashLock(&m_csHashLock); slHashLock.Lock(); for (i=0; i < TOTAL_TABLE_SIZE; i++) { pEntry = HashTable[i].Flink; while ( pEntry != &HashTable[i]) { pHE = CONTAINING_RECORD(pEntry, HashEntry, Linkage); pNextEntry=pEntry->Flink; delete pHE; pEntry=pNextEntry; } } } HRESULT CHashTable::SetDnsResolve(BOOL bEnable) { CSingleLock slHashLock(&m_csHashLock); slHashLock.Lock(); if (m_bDnsResolveActive != bEnable) { m_bDnsResolveActive = bEnable; FlushTable(); } return hrOK; } DWORD CHashTable::HashData(in_addr IpAddr) { int i; int j=0; for (i = 0; i < (sizeof(struct in_addr)); i++) j ^= (unsigned char)(*((char *)&IpAddr + i)); return j % HASH_TABLE_SIZE; } DWORD CHashTable::DnsResolve() { PLIST_ENTRY pEntry; HashEntry *pHE; HOSTENT *pHost; BOOL bWorkAvail; while(m_bDnsResolveActive) { pHE=NULL; bWorkAvail=FALSE; CSingleLock slHashLock(&m_csHashLock); slHashLock.Lock(); if (!IsListEmpty(&HashTable[PENDING_INDEX])) { pEntry=RemoveHeadList(&HashTable[PENDING_INDEX]); pHE = CONTAINING_RECORD(pEntry, HashEntry, Linkage); bWorkAvail=TRUE; } slHashLock.Unlock(); // Make sure name resolution is outside of lock for perf if (bWorkAvail) { pHost=gethostbyaddr((char*)&pHE->IpAddr,sizeof(in_addr),AF_INET); if (pHost) { //Resolution succeeded pHE->HostName = pHost->h_name; g_HashTable.AddObject(pHE); } else { // Resolution attempted, failed, cache failure for perf ULONG ul = RevertDwordBytes(*(DWORD*)&pHE->IpAddr); CIpAddress TmpIpAddr = ul; pHE->HostName = (CString)TmpIpAddr; g_HashTable.AddObject(pHE); } } else { Sleep(300); } } m_bThreadRunning=FALSE; return ERROR_SUCCESS; } UINT HashResolverCallback(LPVOID pParam) { g_HashTable.DnsResolve(); return ERROR_SUCCESS; }