// File: connpnts.cpp // // CConnectionPoint // CConnectionPointContainer // CEnumConnections /////////////////////////////////////////////////////////////////////////// #include "precomp.h" #include "connpnts.h" #include /* C C O N N E C T I O N P O I N T */ /*------------------------------------------------------------------------- %%Function: CConnectionPoint -------------------------------------------------------------------------*/ CConnectionPoint::CConnectionPoint(const IID *pIID, IConnectionPointContainer *pCPCInit) : m_riid(*pIID), m_pCPC(pCPCInit), m_cSinks(0), m_cAllocatedSinks(0), m_rgSinks(NULL) { TRACE_OUT(("CConnectionPoint - Constructed(%08X)", this)); } CConnectionPoint::~CConnectionPoint (void) { for (ULONG x = 0; x < m_cAllocatedSinks; x += 1) { if (m_rgSinks[x] != NULL) { IUnknown *pUnk = (IUnknown *)m_rgSinks[x]; pUnk->Release(); } } if (m_cAllocatedSinks != 0) { HeapFree(GetProcessHeap(), 0, m_rgSinks); } TRACE_OUT(("CConnectionPoint - Destructed(%p)", this)); } STDMETHODIMP_(ULONG) CConnectionPoint::AddRef(void) { return RefCount::AddRef(); } STDMETHODIMP_(ULONG) CConnectionPoint::Release(void) { return RefCount::Release(); } STDMETHODIMP CConnectionPoint::QueryInterface(REFIID riid, void **ppv) { HRESULT hr = S_OK; if ((riid == IID_IUnknown) || (riid == IID_IConnectionPoint)) { *ppv = (IConnectionPoint *)this; TRACE_OUT(("CConnectionPoint::QueryInterface(): Returning IConnectionPoint.")); } else { hr = E_NOINTERFACE; *ppv = NULL; TRACE_OUT(("CConnectionPoint::QueryInterface(): Called on unknown interface.")); } if (S_OK == hr) { AddRef(); } return hr; } /* N O T I F Y */ /*------------------------------------------------------------------------- %%Function: Notify -------------------------------------------------------------------------*/ STDMETHODIMP CConnectionPoint::Notify(void *pv, CONN_NOTIFYPROC pfn) { // // Enumerate each connection // AddRef(); for (ULONG x = 0; x < m_cAllocatedSinks; x += 1) { if (m_rgSinks[x] != NULL) { IUnknown *pUnk = (IUnknown *)m_rgSinks[x]; pUnk->AddRef(); (*pfn)(pUnk, pv, m_riid); pUnk->Release(); } } Release(); return S_OK; } /* G E T C O N N E C T I O N I N T E R F A C E */ /*------------------------------------------------------------------------- %%Function: GetConnectionInterface -------------------------------------------------------------------------*/ STDMETHODIMP CConnectionPoint::GetConnectionInterface(IID *pIID) { // Validate the parameter // if (pIID == NULL) return E_POINTER; // Support only one connection interface // *pIID = m_riid; return S_OK; } STDMETHODIMP CConnectionPoint::GetConnectionPointContainer(IConnectionPointContainer **ppCPC) { // Validate the parameter // if (ppCPC == NULL) return E_POINTER; // Return the container and add its reference count // *ppCPC = m_pCPC; if (m_pCPC != NULL) { // The container is still alive // m_pCPC->AddRef(); return S_OK; } else { // The container no longer exists // return E_FAIL; } } /* A D V I S E */ /*------------------------------------------------------------------------- %%Function: Advise -------------------------------------------------------------------------*/ STDMETHODIMP CConnectionPoint::Advise(IUnknown *pUnk, DWORD *pdwCookie) { IUnknown *pSinkInterface; // Validate the parameter // if (pdwCookie == NULL) return E_POINTER; *pdwCookie = 0; if (pUnk == NULL) return E_INVALIDARG; HRESULT hr = CONNECT_E_CANNOTCONNECT; // // Get the sink interface // if (SUCCEEDED(pUnk->QueryInterface(m_riid, (void **)&pSinkInterface))) { // // If the number of active sinks is less than the number of allocated // sinks, then there is a free slot in the sink table. Otherwise, the // table must be expanded. // ULONG x = m_cAllocatedSinks; if (m_cSinks < m_cAllocatedSinks) { for (x = 0; x < m_cAllocatedSinks; x += 1) { if (m_rgSinks[x] == NULL) { break; } } } // // If a free slot was found in the table, then use the slot. Otherwise, // expand the sink table. // if (x == m_cAllocatedSinks) { IUnknown **rgSinks = (IUnknown **)HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, (m_cAllocatedSinks + 8) * sizeof(IUnknown *)); if (rgSinks == NULL) { pSinkInterface->Release(); return E_OUTOFMEMORY; } for (ULONG z = 0; z < m_cAllocatedSinks; z += 1) { rgSinks[z] = m_rgSinks[z]; } m_cAllocatedSinks += 8; if (m_rgSinks != NULL) { HeapFree(GetProcessHeap(), 0, m_rgSinks); } m_rgSinks = rgSinks; } // // Add new sink to the table. // m_rgSinks[x] = pSinkInterface; m_cSinks += 1; *pdwCookie = x + 1; hr = S_OK; } return hr; } /* U N A D V I S E */ /*------------------------------------------------------------------------- %%Function: Unadvise -------------------------------------------------------------------------*/ STDMETHODIMP CConnectionPoint::Unadvise(DWORD dwCookie) { HRESULT hr = CONNECT_E_NOCONNECTION; // // Traverse the sink list to find the specified sink object // if ((dwCookie != 0) && (dwCookie <= m_cAllocatedSinks) && (m_rgSinks[dwCookie - 1] != NULL)) { IUnknown *pUnk = (IUnknown *) m_rgSinks[dwCookie - 1]; pUnk->Release(); m_rgSinks[dwCookie - 1] = NULL; m_cSinks -= 1; hr = S_OK; } return hr; } STDMETHODIMP CConnectionPoint::EnumConnections(IEnumConnections **ppEnum) { HRESULT hr = E_POINTER; // Validate parameters // if (ppEnum == NULL) { // Create an enumerator // *ppEnum = new CEnumConnections(m_rgSinks, m_cSinks, m_cAllocatedSinks); hr = (NULL != *ppEnum) ? S_OK : E_OUTOFMEMORY; } return hr; } /////////////////////////////////////////////////////////////////////////// /* C E N U M C O N N E C T I O N S */ /*------------------------------------------------------------------------- %%Function: CEnumConnections -------------------------------------------------------------------------*/ CEnumConnections::CEnumConnections(IUnknown **pSinks, ULONG cSinks, ULONG cAllocatedSinks) : m_iIndex(0), m_cConnections(0), m_pCD(NULL) { // Snapshot the connection list // if (cSinks > 0) { m_pCD = new CONNECTDATA[cSinks]; if (NULL != m_pCD) { for (ULONG x = 0; x < cAllocatedSinks; x += 1) { if (pSinks[x] != NULL) { IUnknown *pUnk = (IUnknown *) pSinks[x]; pUnk->AddRef(); m_pCD[m_cConnections++].pUnk = pUnk; m_pCD[m_cConnections++].dwCookie = x + 1; } } } } TRACE_OUT(("CEnumConnections - Constructed(%p)", this)); } CEnumConnections::~CEnumConnections(void) { if (m_pCD != NULL) { for (int i = 0; i < m_cConnections; i++) { m_pCD[i].pUnk->Release(); }; delete [] m_pCD; }; TRACE_OUT(("CEnumConnections - Destructed(%08X)", this)); } STDMETHODIMP_(ULONG) CEnumConnections::AddRef(void) { return RefCount::AddRef(); } STDMETHODIMP_(ULONG) CEnumConnections::Release(void) { return RefCount::Release(); } STDMETHODIMP CEnumConnections::QueryInterface(REFIID riid, void **ppv) { HRESULT hr = S_OK; if ((riid == IID_IEnumConnections) || (riid == IID_IUnknown)) { *ppv = (IEnumConnections *)this; TRACE_OUT(("CEnumConnections::QueryInterface(): Returning IEnumConnections.")); } else { hr = E_NOINTERFACE; *ppv = NULL; TRACE_OUT(("CEnumConnections::QueryInterface(): Called on unknown interface.")); } if (S_OK == hr) { AddRef(); } return hr; } STDMETHODIMP CEnumConnections::Next(ULONG cConnections, CONNECTDATA *rgpcd, ULONG *pcFetched) { ULONG cCopied = 0; if ((0 == cConnections) && (NULL == rgpcd) && (NULL != pcFetched)) { // Return the number of remaining elements *pcFetched = m_cConnections - m_iIndex; return S_OK; } if ((NULL == rgpcd) || ((NULL == pcFetched) && (cConnections != 1))) return E_POINTER; if (NULL != m_pCD) { while ((cCopied < cConnections) && (m_iIndex < m_cConnections)) { *rgpcd = m_pCD[m_iIndex]; (*rgpcd).pUnk->AddRef(); rgpcd++; cCopied++; m_iIndex++; } } if (pcFetched != NULL) *pcFetched = cCopied; return (cConnections == cCopied) ? S_OK : S_FALSE; } STDMETHODIMP CEnumConnections::Skip(ULONG cConnections) { m_iIndex += cConnections; if (m_iIndex >= m_cConnections) { // Past the end of the list m_iIndex = m_cConnections; return S_FALSE; } return S_OK; } STDMETHODIMP CEnumConnections::Reset(void) { m_iIndex = 0; return S_OK; } STDMETHODIMP CEnumConnections::Clone(IEnumConnections **ppEnum) { // Validate parameters // if (ppEnum != NULL) return E_POINTER; HRESULT hr = S_OK; CEnumConnections * pEnum = new CEnumConnections(NULL, 0, 0); if (NULL == pEnum) { hr = E_OUTOFMEMORY; } else if (NULL != m_pCD) { pEnum->m_pCD = new CONNECTDATA[m_cConnections]; if (NULL == pEnum->m_pCD) { delete pEnum; pEnum = NULL; hr = E_OUTOFMEMORY; } else { pEnum->m_iIndex = m_iIndex; pEnum->m_cConnections = m_cConnections; for (int i = 0; i < m_cConnections; ++i) { m_pCD[i].pUnk->AddRef(); pEnum->m_pCD[i] = m_pCD[i]; } } } *ppEnum = pEnum; return hr; } /////////////////////////////////////////////////////////////////////////// /* C C O N N E C T I O N P O I N T C O N T A I N E R */ /*------------------------------------------------------------------------- %%Function: CConnectionPointContainer -------------------------------------------------------------------------*/ CConnectionPointContainer::CConnectionPointContainer(const IID **ppiid, int cCp) : m_ppCp(NULL), m_cCp(0) { m_ppCp = new CConnectionPoint* [cCp]; if (NULL != m_ppCp) { for (int i = 0; i < cCp; ++i) { CConnectionPoint *pCp = new CConnectionPoint(ppiid[i], this); if (NULL != pCp) { m_ppCp[m_cCp++] = pCp; } } } } CConnectionPointContainer::~CConnectionPointContainer() { if (NULL != m_ppCp) { for (int i = 0; i < m_cCp; ++i) { CConnectionPoint *pCp = m_ppCp[i]; if (NULL != pCp) { pCp->ContainerReleased(); pCp->Release(); } } delete[] m_ppCp; } } HRESULT STDMETHODCALLTYPE CConnectionPointContainer::NotifySink(void *pv, CONN_NOTIFYPROC pfn) { if (NULL != m_ppCp) { for (int i = 0; i < m_cCp; ++i) { m_ppCp[i]->Notify(pv, pfn); } } return S_OK; } STDMETHODIMP CConnectionPointContainer::EnumConnectionPoints(IEnumConnectionPoints **ppEnum) { if (ppEnum == NULL) return E_POINTER; // Create an enumerator *ppEnum = new CEnumConnectionPoints(m_ppCp, m_cCp); return (NULL != *ppEnum) ? S_OK : E_OUTOFMEMORY; } STDMETHODIMP CConnectionPointContainer::FindConnectionPoint(REFIID riid, IConnectionPoint **ppCp) { HRESULT hr = E_POINTER; if (NULL != ppCp) { hr = CONNECT_E_NOCONNECTION; *ppCp = NULL; if (NULL != m_ppCp) { for (int i = 0; i < m_cCp; ++i) { IID iid; IConnectionPoint *pCp = m_ppCp[i]; if (S_OK == pCp->GetConnectionInterface(&iid)) { if (riid == iid) { pCp->AddRef(); *ppCp = pCp; hr = S_OK; break; } } } } } return hr; }