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/*CAsyncSocketEx by Tim Kosse (Tim.Kosse@gmx.de)
Version 1.3 (2003-04-26)
--------------------------------------------------------
Introduction:
-------------
CAsyncSocketEx is a replacement for the MFC class CAsyncSocket.
This class was written because CAsyncSocket is not the fastest WinSock
wrapper and it's very hard to add new functionality to CAsyncSocket
derived classes. This class offers the same functionality as CAsyncSocket.
Also, CAsyncSocketEx offers some enhancements which were not possible with
CAsyncSocket without some tricks.
How do I use it?
----------------
Basically exactly like CAsyncSocket.
To use CAsyncSocketEx, just replace all occurrences of CAsyncSocket in your
code with CAsyncSocketEx, if you did not enhance CAsyncSocket yourself in
any way, you won't have to change anything else in your code.
Why is CAsyncSocketEx faster?
-----------------------------
CAsyncSocketEx is slightly faster when dispatching notification event messages.
First have a look at the way CAsyncSocket works. For each thread that uses
CAsyncSocket, a window is created. CAsyncSocket calls WSAAsyncSelect with
the handle of that window. Until here, CAsyncSocketEx works the same way.
But CAsyncSocket uses only one window message (WM_SOCKET_NOTIFY) for all
sockets within one thread. When the window recieve WM_SOCKET_NOTIFY, wParam
contains the socket handle and the window looks up an CAsyncSocket instance
using a map. CAsyncSocketEx works differently. It's helper window uses a
wide range of different window messages (WM_USER through 0xBFFF) and passes
a different message to WSAAsyncSelect for each socket. When a message in
the specified range is received, CAsyncSocketEx looks up the pointer to a
CAsyncSocketEx instance in an Array using the index of message - WM_USER.
As you can see, CAsyncSocketEx uses the helper window in a more efficient
way, as it don't have to use the slow maps to lookup it's own instance.
Still, speed increase is not very much, but it may be noticeable when using
a lot of sockets at the same time.
Please note that the changes do not affect the raw data throughput rate,
CAsyncSocketEx only dispatches the notification messages faster.
What else does CAsyncSocketEx offer?
------------------------------------
CAsyncSocketEx offers a flexible layer system. One example is the proxy layer.
Just create an instance of the proxy layer, configure it and add it to the layer
chain of your CAsyncSocketEx instance. After that, you can connect through
proxies.
Benefit: You don't have to change much to use the layer system.
Another layer that is currently in development is the SSL layer to establish
SSL encrypted connections.
License
-------
Feel free to use this class, as long as you don't claim that you wrote it
and this copyright notice stays intact in the source files.
If you use this class in commercial applications, please send a short message
to tim.kosse@gmx.de
*/
#include "stdafx.h"
#include "AsyncSocketEx.h"
#include "wtypes.h"
#include "oleauto.h"
#include "atlconv.h"
#ifndef NOLAYERS
#include "AsyncSocketExLayer.h"
#endif //NOLAYERS
#ifdef _DEBUG
#undef THIS_FILE
static char THIS_FILE[]=__FILE__;
#endif
#ifndef CCRITICALSECTIONWRAPPERINCLUDED
class CCriticalSectionWrapper
{
public:
CCriticalSectionWrapper()
{
m_bInitialized = TRUE;
InitializeCriticalSection(&m_criticalSection);
}
~CCriticalSectionWrapper()
{
if (m_bInitialized)
DeleteCriticalSection(&m_criticalSection);
m_bInitialized = FALSE;
}
void Lock()
{
if (m_bInitialized)
EnterCriticalSection(&m_criticalSection);
}
void Unlock()
{
if (m_bInitialized)
LeaveCriticalSection(&m_criticalSection);
}
protected:
CRITICAL_SECTION m_criticalSection;
BOOL m_bInitialized;
};
#define CCRITICALSECTIONWRAPPERINCLUDED
#endif
CCriticalSectionWrapper CAsyncSocketEx::m_sGlobalCriticalSection;
CAsyncSocketEx::t_AsyncSocketExThreadDataList *CAsyncSocketEx::m_spAsyncSocketExThreadDataList = 0;
HMODULE CAsyncSocketEx::m_hDll = 0;
t_getaddrinfo CAsyncSocketEx::p_getaddrinfo = 0;
t_freeaddrinfo CAsyncSocketEx::p_freeaddrinfo = 0;
#ifndef _AFX
#ifndef VERIFY
#define VERIFY(x) (void(x))
#endif //VERIFY
#ifndef ASSERT
#define ASSERT(x)
#endif //ASSERT
#endif //_AFX
/////////////////////////////
//Helper Window class
#define WM_SOCKETEX_NOTIFY (WM_USER+3)
#define MAX_SOCKETS (0xBFFF-WM_SOCKETEX_NOTIFY+1)
class CAsyncSocketExHelperWindow
{
public:
CAsyncSocketExHelperWindow(CAsyncSocketEx::t_AsyncSocketExThreadData* pThreadData)
{
//Initialize data
m_pAsyncSocketExWindowData = new t_AsyncSocketExWindowData[512]; //Reserve space for 512 active sockets
memset(m_pAsyncSocketExWindowData, 0, 512*sizeof(t_AsyncSocketExWindowData));
m_nWindowDataSize=512;
m_nSocketCount=0;
m_nWindowDataPos=0;
m_pThreadData = pThreadData;
//Create window
WNDCLASSEX wndclass;
wndclass.cbSize=sizeof wndclass;
wndclass.style=0;
wndclass.lpfnWndProc=WindowProc;
wndclass.cbClsExtra=0;
wndclass.cbWndExtra=0;
wndclass.hInstance=GetModuleHandle(0);
wndclass.hIcon=0;
wndclass.hCursor=0;
wndclass.hbrBackground=0;
wndclass.lpszMenuName=0;
wndclass.lpszClassName=_T("CAsyncSocketEx Helper Window");
wndclass.hIconSm=0;
RegisterClassEx(&wndclass);
m_hWnd=CreateWindow(_T("CAsyncSocketEx Helper Window"), _T("CAsyncSocketEx Helper Window"), 0, 0, 0, 0, 0, 0, 0, 0, GetModuleHandle(0));
ASSERT(m_hWnd);
SetWindowLongPtr(m_hWnd, GWLP_USERDATA, (LONG_PTR)this);
};
virtual ~CAsyncSocketExHelperWindow()
{
//Clean up socket storage
delete [] m_pAsyncSocketExWindowData;
m_pAsyncSocketExWindowData=0;
m_nWindowDataSize=0;
m_nSocketCount=0;
//Destroy window
if (m_hWnd)
{
DestroyWindow(m_hWnd);
m_hWnd=0;
}
}
//Adds a socket to the list of attached sockets
BOOL AddSocket(CAsyncSocketEx *pSocket, int &nSocketIndex)
{
ASSERT(pSocket);
if (!m_nWindowDataSize)
{
ASSERT(!m_nSocketCount);
m_nWindowDataSize=512;
m_pAsyncSocketExWindowData=new t_AsyncSocketExWindowData[512]; //Reserve space for 512 active sockets
memset(m_pAsyncSocketExWindowData, 0, 512*sizeof(t_AsyncSocketExWindowData));
}
if (nSocketIndex!=-1)
{
ASSERT(m_pAsyncSocketExWindowData);
ASSERT(m_nWindowDataSize>nSocketIndex);
ASSERT(m_pAsyncSocketExWindowData[nSocketIndex].m_pSocket==pSocket);
ASSERT(m_nSocketCount);
return TRUE;
}
//Increase socket storage if too small
if (m_nSocketCount>=(m_nWindowDataSize-10))
{
int nOldWindowDataSize=m_nWindowDataSize;
ASSERT(m_nWindowDataSize<MAX_SOCKETS);
m_nWindowDataSize+=512;
if (m_nWindowDataSize>MAX_SOCKETS)
m_nWindowDataSize=MAX_SOCKETS;
t_AsyncSocketExWindowData *tmp=m_pAsyncSocketExWindowData;
m_pAsyncSocketExWindowData = new t_AsyncSocketExWindowData[m_nWindowDataSize];
memcpy(m_pAsyncSocketExWindowData, tmp, nOldWindowDataSize * sizeof(t_AsyncSocketExWindowData));
memset(m_pAsyncSocketExWindowData+nOldWindowDataSize, 0, (m_nWindowDataSize-nOldWindowDataSize)*sizeof(t_AsyncSocketExWindowData));
delete [] tmp;
}
//Search for free slot
for (int i=m_nWindowDataPos;i<(m_nWindowDataSize+m_nWindowDataPos);i++)
{
if (!m_pAsyncSocketExWindowData[i%m_nWindowDataSize].m_pSocket)
{
m_pAsyncSocketExWindowData[i%m_nWindowDataSize].m_pSocket=pSocket;
nSocketIndex=i%m_nWindowDataSize;
m_nWindowDataPos=(i+1)%m_nWindowDataSize;
m_nSocketCount++;
return TRUE;
}
}
//No slot found, maybe there are too much sockets!
return FALSE;
}
//Removes a socket from the socket storage
BOOL RemoveSocket(CAsyncSocketEx *pSocket, int &nSocketIndex)
{
ASSERT(pSocket);
if (nSocketIndex==-1)
return TRUE;
// Remove additional messages from queue
MSG msg;
while (PeekMessage(&msg, m_hWnd, WM_SOCKETEX_NOTIFY + nSocketIndex, WM_SOCKETEX_NOTIFY + nSocketIndex, PM_REMOVE));
ASSERT(m_pAsyncSocketExWindowData);
ASSERT(m_nWindowDataSize>0);
ASSERT(m_nSocketCount>0);
ASSERT(m_pAsyncSocketExWindowData[nSocketIndex].m_pSocket==pSocket);
m_pAsyncSocketExWindowData[nSocketIndex].m_pSocket=0;
nSocketIndex=-1;
m_nSocketCount--;
return TRUE;
}
void RemoveLayers(CAsyncSocketEx *pOrigSocket)
{
// Remove all layer messages from old socket
std::list<MSG> msgList;
MSG msg;
while (PeekMessage(&msg, m_hWnd, WM_USER, WM_USER, PM_REMOVE))
{
//Verify parameters, lookup socket and notification message
//Verify parameters
if (msg.wParam >= static_cast<UINT>(m_nWindowDataSize)) //Index is within socket storage
continue;
CAsyncSocketEx *pSocket = m_pAsyncSocketExWindowData[msg.wParam].m_pSocket;
CAsyncSocketExLayer::t_LayerNotifyMsg *pMsg=(CAsyncSocketExLayer::t_LayerNotifyMsg *)msg.lParam;
if (!pMsg || !pSocket || pSocket == pOrigSocket || pSocket->m_SocketData.hSocket != pMsg->hSocket)
{
delete pMsg;
continue;
}
msgList.push_back(msg);
}
for (std::list<MSG>::iterator iter = msgList.begin(); iter != msgList.end(); iter++)
PostMessage(m_hWnd, iter->message, iter->wParam, iter->lParam);
}
//Processes event notifications sent by the sockets or the layers
static LRESULT CALLBACK WindowProc(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam)
{
if (message>=WM_SOCKETEX_NOTIFY)
{
//Verify parameters
ASSERT(hWnd);
CAsyncSocketExHelperWindow *pWnd=(CAsyncSocketExHelperWindow *)GetWindowLongPtr(hWnd, GWLP_USERDATA);
ASSERT(pWnd);
if (message<static_cast<UINT>(WM_SOCKETEX_NOTIFY+pWnd->m_nWindowDataSize)) //Index is within socket storage
{
//Lookup socket and verify if it's valid
CAsyncSocketEx *pSocket=pWnd->m_pAsyncSocketExWindowData[message-WM_SOCKETEX_NOTIFY].m_pSocket;
SOCKET hSocket=wParam;
if (!pSocket)
return 0;
if (hSocket==INVALID_SOCKET)
return 0;
if (pSocket->m_SocketData.hSocket != hSocket)
return 0;
int nEvent=lParam&0xFFFF;
int nErrorCode=lParam>>16;
//Dispatch notification
#ifndef NOLAYERS
if (!pSocket->m_pFirstLayer)
{
#endif //NOLAYERS
//Dispatch to CAsyncSocketEx instance
switch (nEvent)
{
case FD_READ:
#ifndef NOSOCKETSTATES
if (pSocket->GetState() == connecting && !nErrorCode)
{
pSocket->m_nPendingEvents |= FD_READ;
break;
}
else if (pSocket->GetState() == attached)
pSocket->SetState(connected);
if (pSocket->GetState() != connected)
break;
// Ignore further FD_READ events after FD_CLOSE has been received
if (pSocket->m_SocketData.onCloseCalled)
break;
#endif //NOSOCKETSTATES
if (pSocket->m_lEvent & FD_READ)
{
DWORD nBytes = 0;
if (!nErrorCode)
if (!pSocket->IOCtl(FIONREAD, &nBytes))
nErrorCode = WSAGetLastError();
#ifndef NOSOCKETSTATES
if (nErrorCode)
pSocket->SetState(aborted);
#endif //NOSOCKETSTATES
if (nBytes != 0 || nErrorCode != 0)
pSocket->OnReceive(nErrorCode);
}
break;
case FD_FORCEREAD: //Forceread does not check if there's data waiting
#ifndef NOSOCKETSTATES
if (pSocket->GetState() == connecting && !nErrorCode)
{
pSocket->m_nPendingEvents |= FD_FORCEREAD;
break;
}
else if (pSocket->GetState() == attached)
pSocket->SetState(connected);
if (pSocket->GetState() != connected)
break;
#endif //NOSOCKETSTATES
if (pSocket->m_lEvent & FD_READ)
{
#ifndef NOSOCKETSTATES
if (nErrorCode)
pSocket->SetState(aborted);
#endif //NOSOCKETSTATES
pSocket->OnReceive(nErrorCode);
}
break;
case FD_WRITE:
#ifndef NOSOCKETSTATES
if (pSocket->GetState() == connecting && !nErrorCode)
{
pSocket->m_nPendingEvents |= FD_WRITE;
break;
}
else if (pSocket->GetState() == attached && !nErrorCode)
pSocket->SetState(connected);
if (pSocket->GetState() != connected)
break;
#endif //NOSOCKETSTATES
if (pSocket->m_lEvent & FD_WRITE)
{
#ifndef NOSOCKETSTATES
if (nErrorCode)
pSocket->SetState(aborted);
#endif //NOSOCKETSTATES
pSocket->OnSend(nErrorCode);
}
break;
case FD_CONNECT:
#ifndef NOSOCKETSTATES
if (pSocket->GetState() == connecting)
{
if (nErrorCode && pSocket->m_SocketData.nextAddr)
{
if (pSocket->TryNextProtocol())
break;
}
pSocket->SetState(connected);
}
else if (pSocket->GetState() == attached && !nErrorCode)
pSocket->SetState(connected);
#endif //NOSOCKETSTATES
if (pSocket->m_lEvent & FD_CONNECT)
pSocket->OnConnect(nErrorCode);
#ifndef NOSOCKETSTATES
if (!nErrorCode)
{
if ((pSocket->m_nPendingEvents&FD_READ) && pSocket->GetState() == connected)
pSocket->OnReceive(0);
if ((pSocket->m_nPendingEvents&FD_FORCEREAD) && pSocket->GetState() == connected)
pSocket->OnReceive(0);
if ((pSocket->m_nPendingEvents&FD_WRITE) && pSocket->GetState() == connected)
pSocket->OnSend(0);
}
pSocket->m_nPendingEvents = 0;
#endif
break;
case FD_ACCEPT:
#ifndef NOSOCKETSTATES
if (pSocket->GetState() != listening && pSocket->GetState() != attached)
break;
#endif //NOSOCKETSTATES
if (pSocket->m_lEvent & FD_ACCEPT)
pSocket->OnAccept(nErrorCode);
break;
case FD_CLOSE:
#ifndef NOSOCKETSTATES
if (pSocket->GetState() != connected && pSocket->GetState() != attached)
break;
// If there are still bytes left to read, call OnReceive instead of
// OnClose and trigger a new OnClose
DWORD nBytes = 0;
if (!nErrorCode && pSocket->IOCtl(FIONREAD, &nBytes))
{
if (nBytes > 0)
{
// Just repeat message.
PostMessage(hWnd, message, wParam, lParam);
pSocket->m_SocketData.onCloseCalled = true;
pSocket->OnReceive(WSAESHUTDOWN);
break;
}
}
pSocket->SetState(nErrorCode?aborted:closed);
#endif //NOSOCKETSTATES
pSocket->OnClose(nErrorCode);
break;
}
}
#ifndef NOLAYERS
else //Dispatch notification to the lowest layer
{
if (nEvent == FD_READ)
{
// Ignore further FD_READ events after FD_CLOSE has been received
if (pSocket->m_SocketData.onCloseCalled)
return 0;
DWORD nBytes;
if (!pSocket->IOCtl(FIONREAD, &nBytes))
nErrorCode = WSAGetLastError();
if (nBytes != 0 || nErrorCode != 0)
pSocket->m_pLastLayer->CallEvent(nEvent, nErrorCode);
}
else if (nEvent == FD_CLOSE)
{
// If there are still bytes left to read, call OnReceive instead of
// OnClose and trigger a new OnClose
DWORD nBytes = 0;
if (!nErrorCode && pSocket->IOCtl(FIONREAD, &nBytes))
{
if (nBytes > 0)
{
// Just repeat message.
pSocket->ResendCloseNotify();
pSocket->m_pLastLayer->CallEvent(FD_READ, 0);
return 0;
}
}
pSocket->m_SocketData.onCloseCalled = true;
pSocket->m_pLastLayer->CallEvent(nEvent, nErrorCode);
}
else
pSocket->m_pLastLayer->CallEvent(nEvent, nErrorCode);
}
}
#endif //NOLAYERS
return 0;
}
#ifndef NOLAYERS
else if (message == WM_USER) //Notification event sent by a layer
{
//Verify parameters, lookup socket and notification message
//Verify parameters
ASSERT(hWnd);
CAsyncSocketExHelperWindow *pWnd=(CAsyncSocketExHelperWindow *)GetWindowLongPtr(hWnd, GWLP_USERDATA);
ASSERT(pWnd);
if (wParam >= static_cast<UINT>(pWnd->m_nWindowDataSize)) //Index is within socket storage
{
return 0;
}
CAsyncSocketEx *pSocket=pWnd->m_pAsyncSocketExWindowData[wParam].m_pSocket;
CAsyncSocketExLayer::t_LayerNotifyMsg *pMsg=(CAsyncSocketExLayer::t_LayerNotifyMsg *)lParam;
if (!pMsg || !pSocket || pSocket->m_SocketData.hSocket != pMsg->hSocket)
{
delete pMsg;
return 0;
}
int nEvent=pMsg->lEvent&0xFFFF;
int nErrorCode=pMsg->lEvent>>16;
//Dispatch to layer
if (pMsg->pLayer)
pMsg->pLayer->CallEvent(nEvent, nErrorCode);
else
{
//Dispatch to CAsyncSocketEx instance
switch (nEvent)
{
case FD_READ:
#ifndef NOSOCKETSTATES
if (pSocket->GetState() == connecting && !nErrorCode)
{
pSocket->m_nPendingEvents |= FD_READ;
break;
}
else if (pSocket->GetState() == attached && !nErrorCode)
pSocket->SetState(connected);
if (pSocket->GetState() != connected)
break;
#endif //NOSOCKETSTATES
if (pSocket->m_lEvent & FD_READ)
{
#ifndef NOSOCKETSTATES
if (nErrorCode)
pSocket->SetState(aborted);
#endif //NOSOCKETSTATES
pSocket->OnReceive(nErrorCode);
}
break;
case FD_FORCEREAD: //Forceread does not check if there's data waiting
#ifndef NOSOCKETSTATES
if (pSocket->GetState() == connecting && !nErrorCode)
{
pSocket->m_nPendingEvents |= FD_FORCEREAD;
break;
}
else if (pSocket->GetState() == attached && !nErrorCode)
pSocket->SetState(connected);
if (pSocket->GetState() != connected)
break;
#endif //NOSOCKETSTATES
if (pSocket->m_lEvent & FD_READ)
{
#ifndef NOSOCKETSTATES
if (nErrorCode)
pSocket->SetState(aborted);
#endif //NOSOCKETSTATES
pSocket->OnReceive(nErrorCode);
}
break;
case FD_WRITE:
#ifndef NOSOCKETSTATES
if (pSocket->GetState() == connecting && !nErrorCode)
{
pSocket->m_nPendingEvents |= FD_WRITE;
break;
}
else if (pSocket->GetState() == attached && !nErrorCode)
pSocket->SetState(connected);
if (pSocket->GetState() != connected)
break;
#endif //NOSOCKETSTATES
if (pSocket->m_lEvent & FD_WRITE)
{
#ifndef NOSOCKETSTATES
if (nErrorCode)
pSocket->SetState(aborted);
#endif //NOSOCKETSTATES
pSocket->OnSend(nErrorCode);
}
break;
case FD_CONNECT:
#ifndef NOSOCKETSTATES
if (pSocket->GetState() == connecting)
pSocket->SetState(connected);
else if (pSocket->GetState() == attached && !nErrorCode)
pSocket->SetState(connected);
#endif //NOSOCKETSTATES
if (pSocket->m_lEvent & FD_CONNECT)
pSocket->OnConnect(nErrorCode);
#ifndef NOSOCKETSTATES
if (!nErrorCode)
{
if (((pSocket->m_nPendingEvents&FD_READ) && pSocket->GetState() == connected) && (pSocket->m_lEvent & FD_READ))
pSocket->OnReceive(0);
if (((pSocket->m_nPendingEvents&FD_FORCEREAD) && pSocket->GetState() == connected) && (pSocket->m_lEvent & FD_READ))
pSocket->OnReceive(0);
if (((pSocket->m_nPendingEvents&FD_WRITE) && pSocket->GetState() == connected) && (pSocket->m_lEvent & FD_WRITE))
pSocket->OnSend(0);
}
pSocket->m_nPendingEvents = 0;
#endif //NOSOCKETSTATES
break;
case FD_ACCEPT:
#ifndef NOSOCKETSTATES
if ((pSocket->GetState() == listening || pSocket->GetState() == attached) && (pSocket->m_lEvent & FD_ACCEPT))
#endif //NOSOCKETSTATES
{
pSocket->OnAccept(nErrorCode);
}
break;
case FD_CLOSE:
#ifndef NOSOCKETSTATES
if ((pSocket->GetState() == connected || pSocket->GetState() == attached) && (pSocket->m_lEvent & FD_CLOSE))
{
pSocket->SetState(nErrorCode?aborted:closed);
#else
{
#endif //NOSOCKETSTATES
pSocket->OnClose(nErrorCode);
}
break;
}
}
delete pMsg;
return 0;
}
#endif //NOLAYERS
else if (message == WM_USER+1)
{
// WSAAsyncGetHostByName reply
// Verify parameters
ASSERT(hWnd);
CAsyncSocketExHelperWindow *pWnd = (CAsyncSocketExHelperWindow *)GetWindowLongPtr(hWnd, GWLP_USERDATA);
ASSERT(pWnd);
CAsyncSocketEx *pSocket = NULL;
for (int i = 0; i < pWnd->m_nWindowDataSize; i++)
{
pSocket = pWnd->m_pAsyncSocketExWindowData[i].m_pSocket;
if (pSocket && pSocket->m_hAsyncGetHostByNameHandle &&
pSocket->m_hAsyncGetHostByNameHandle == (HANDLE)wParam)
break;
}
if (!pSocket)
return 0;
int nErrorCode = lParam >> 16;
if (nErrorCode)
{
pSocket->OnConnect(nErrorCode);
return 0;
}
SOCKADDR_IN sockAddr;
memset(&sockAddr,0,sizeof(sockAddr));
sockAddr.sin_family=AF_INET;
sockAddr.sin_addr.s_addr = ((LPIN_ADDR)((LPHOSTENT)pSocket->m_pAsyncGetHostByNameBuffer)->h_addr)->s_addr;
sockAddr.sin_port = htons(pSocket->m_nAsyncGetHostByNamePort);
BOOL res = pSocket->Connect((SOCKADDR*)&sockAddr, sizeof(sockAddr));
delete [] pSocket->m_pAsyncGetHostByNameBuffer;
pSocket->m_pAsyncGetHostByNameBuffer=0;
pSocket->m_hAsyncGetHostByNameHandle=0;
if (!res)
if (GetLastError()!=WSAEWOULDBLOCK)
pSocket->OnConnect(GetLastError());
return 0;
}
else if (message == WM_USER + 2)
{
//Verify parameters, lookup socket and notification message
//Verify parameters
if (!hWnd)
return 0;
CAsyncSocketExHelperWindow *pWnd=(CAsyncSocketExHelperWindow *)GetWindowLongPtr(hWnd, GWLP_USERDATA);
if (!pWnd)
return 0;
if (wParam >= static_cast<UINT>(pWnd->m_nWindowDataSize)) //Index is within socket storage
return 0;
CAsyncSocketEx *pSocket = pWnd->m_pAsyncSocketExWindowData[wParam].m_pSocket;
if (!pSocket)
return 0;
// Process pending callbacks
std::list<t_callbackMsg> tmp;
tmp.swap(pSocket->m_pendingCallbacks);
pSocket->OnLayerCallback(tmp);
}
else if (message == WM_TIMER)
{
if (wParam != 1)
return 0;
ASSERT(hWnd);
CAsyncSocketExHelperWindow *pWnd=(CAsyncSocketExHelperWindow *)GetWindowLongPtr(hWnd, GWLP_USERDATA);
ASSERT(pWnd);
if (pWnd->m_pThreadData->layerCloseNotify.empty())
{
KillTimer(hWnd, 1);
return 0;
}
CAsyncSocketEx* socket = pWnd->m_pThreadData->layerCloseNotify.front();
pWnd->m_pThreadData->layerCloseNotify.pop_front();
if (pWnd->m_pThreadData->layerCloseNotify.empty())
KillTimer(hWnd, 1);
PostMessage(hWnd, socket->m_SocketData.nSocketIndex + WM_SOCKETEX_NOTIFY, socket->m_SocketData.hSocket, FD_CLOSE);
return 0;
}
return DefWindowProc(hWnd, message, wParam, lParam);
}
HWND CAsyncSocketExHelperWindow::GetHwnd()
{
return m_hWnd;
}
private:
HWND m_hWnd;
struct t_AsyncSocketExWindowData
{
CAsyncSocketEx *m_pSocket;
} *m_pAsyncSocketExWindowData;
int m_nWindowDataSize;
int m_nWindowDataPos;
int m_nSocketCount;
CAsyncSocketEx::t_AsyncSocketExThreadData* m_pThreadData;
};
//////////////////////////////////////////////////////////////////////
// Konstruktion/Destruktion
//////////////////////////////////////////////////////////////////////
CAsyncSocketEx::CAsyncSocketEx()
{
m_SocketData.hSocket = INVALID_SOCKET;
m_SocketData.nSocketIndex = -1;
m_SocketData.nFamily = AF_UNSPEC;
m_SocketData.onCloseCalled = false;
m_pLocalAsyncSocketExThreadData = 0;
#ifndef NOSOCKETSTATES
m_nPendingEvents = 0;
m_nState = notsock;
#endif //NOSOCKETSTATES
#ifndef NOLAYERS
m_pFirstLayer = 0;
m_pLastLayer = 0;
#endif //NOLAYERS
m_pAsyncGetHostByNameBuffer = NULL;
m_hAsyncGetHostByNameHandle = NULL;
m_nSocketPort = 0;
m_lpszSocketAddress = 0;
m_SocketData.addrInfo = 0;
m_SocketData.nextAddr = 0;
}
CAsyncSocketEx::~CAsyncSocketEx()
{
Close();
FreeAsyncSocketExInstance();
}
BOOL CAsyncSocketEx::Create(UINT nSocketPort /*=0*/, int nSocketType /*=SOCK_STREAM*/, long lEvent /*=FD_READ | FD_WRITE | FD_OOB | FD_ACCEPT | FD_CONNECT | FD_CLOSE*/, LPCTSTR lpszSocketAddress /*=NULL*/, int nFamily /*=AF_INET*/, bool reusable /*=false*/)
{
ASSERT(GetSocketHandle() == INVALID_SOCKET);
//Close the socket, although this should not happen
if (GetSocketHandle() != INVALID_SOCKET)
{
WSASetLastError(WSAEALREADY);
return FALSE;
}
BOOL res = InitAsyncSocketExInstance();
ASSERT(res);
if (!res)
{
WSASetLastError(WSANOTINITIALISED);
return FALSE;
}
m_SocketData.nFamily = nFamily;
#ifndef NOLAYERS
if (m_pFirstLayer)
{
res = m_pFirstLayer->Create(nSocketPort, nSocketType, lEvent, lpszSocketAddress, nFamily, reusable);
#ifndef NOSOCKETSTATES
if (res)
SetState(unconnected);
#endif //NOSOCKETSTATES
return res;
}
else
#endif //NOLAYERS
{
if (m_SocketData.nFamily == AF_UNSPEC)
{
#ifndef NOSOCKETSTATES
SetState(unconnected);
#endif //NOSOCKETSTATES
m_lEvent = lEvent;
m_nSocketPort = nSocketPort;
delete [] m_lpszSocketAddress;
if (lpszSocketAddress && *lpszSocketAddress)
{
m_lpszSocketAddress = new TCHAR[_tcslen(lpszSocketAddress) + 1];
_tcscpy(m_lpszSocketAddress, lpszSocketAddress);
}
else
m_lpszSocketAddress = 0;
return TRUE;
}
else
{
SOCKET hSocket = socket(m_SocketData.nFamily, nSocketType, 0);
if (hSocket == INVALID_SOCKET)
return FALSE;
m_SocketData.hSocket = hSocket;
AttachHandle(hSocket);
#ifndef NOLAYERS
if (m_pFirstLayer)
{
m_lEvent = lEvent;
if (WSAAsyncSelect(m_SocketData.hSocket, GetHelperWindowHandle(), m_SocketData.nSocketIndex+WM_SOCKETEX_NOTIFY, FD_READ | FD_WRITE | FD_OOB | FD_ACCEPT | FD_CONNECT | FD_CLOSE) )
{
Close();
return FALSE;
}
}
else
#endif //NOLAYERS
{
if (!AsyncSelect(lEvent))
{
Close();
return FALSE;
}
}
if (reusable && nSocketPort != 0)
{
BOOL value = TRUE;
SetSockOpt(SO_REUSEADDR, reinterpret_cast<const void*>(&value), sizeof(value));
}
if (!Bind(nSocketPort, lpszSocketAddress))
{
Close();
return FALSE;
}
#ifndef NOSOCKETSTATES
SetState(unconnected);
#endif //NOSOCKETSTATES
return TRUE;
}
}
}
void CAsyncSocketEx::OnReceive(int nErrorCode)
{
}
void CAsyncSocketEx::OnSend(int nErrorCode)
{
}
void CAsyncSocketEx::OnConnect(int nErrorCode)
{
}
void CAsyncSocketEx::OnAccept(int nErrorCode)
{
}
void CAsyncSocketEx::OnClose(int nErrorCode)
{
}
BOOL CAsyncSocketEx::Bind(UINT nSocketPort, LPCTSTR lpszSocketAddress)
{
delete [] m_lpszSocketAddress;
if (lpszSocketAddress && *lpszSocketAddress)
{
m_lpszSocketAddress = new TCHAR[_tcslen(lpszSocketAddress) + 1];
_tcscpy(m_lpszSocketAddress, lpszSocketAddress);
}
else
m_lpszSocketAddress = 0;
m_nSocketPort = nSocketPort;
if (m_SocketData.nFamily == AF_UNSPEC)
return TRUE;
USES_CONVERSION;
LPSTR lpszAscii = (lpszSocketAddress && *lpszSocketAddress) ? T2A((LPTSTR)lpszSocketAddress) : 0;
if ((m_SocketData.nFamily == AF_INET6 || m_SocketData.nFamily == AF_INET) && lpszAscii)
{
if (!p_getaddrinfo)
{
if (m_SocketData.nFamily != AF_INET)
{
WSASetLastError(WSAEPROTONOSUPPORT);
return FALSE;
}
else
{
unsigned long ip = inet_addr(lpszAscii);
if (!ip)
{
WSASetLastError(WSAEINVAL);
return FALSE;
}
SOCKADDR_IN sockAddr;
memset(&sockAddr, 0, sizeof(sockAddr));
sockAddr.sin_family = m_SocketData.nFamily;
sockAddr.sin_addr.s_addr = ip;
sockAddr.sin_port = htons((u_short)nSocketPort);
return Bind((SOCKADDR*)&sockAddr, sizeof(sockAddr));
}
}
addrinfo hints, *res0, *res;
int error;
char port[10];
BOOL ret = FALSE;
memset(&hints, 0, sizeof(addrinfo));
hints.ai_family = m_SocketData.nFamily;
hints.ai_socktype = SOCK_STREAM;
_snprintf(port, 9, "%lu", nSocketPort);
error = p_getaddrinfo(lpszAscii, port, &hints, &res0);
if (error)
return FALSE;
for (res = res0; res; res = res->ai_next)
if (Bind(res->ai_addr, res->ai_addrlen))
{
ret = TRUE;
break;
}
else
continue ;
p_freeaddrinfo(res0);
return ret ;
}
else if (!lpszAscii && m_SocketData.nFamily == AF_INET6)
{
SOCKADDR_IN6 sockAddr6;
memset(&sockAddr6, 0, sizeof(sockAddr6));
sockAddr6.sin6_family = AF_INET6 ;
sockAddr6.sin6_addr = in6addr_any ;
sockAddr6.sin6_port = htons((u_short)nSocketPort);
return Bind((SOCKADDR*)&sockAddr6, sizeof(sockAddr6));
}
else if (!lpszAscii && m_SocketData.nFamily == AF_INET)
{
SOCKADDR_IN sockAddr;
memset(&sockAddr, 0, sizeof(sockAddr));
sockAddr.sin_family = AF_INET ;
sockAddr.sin_addr.s_addr = INADDR_ANY ;
sockAddr.sin_port = htons((u_short)nSocketPort);
return Bind((SOCKADDR*)&sockAddr, sizeof(sockAddr));
}
else
return FALSE ;
}
BOOL CAsyncSocketEx::Bind(const SOCKADDR* lpSockAddr, int nSockAddrLen)
{
if (!bind(m_SocketData.hSocket, lpSockAddr, nSockAddrLen))
return TRUE;
else
return FALSE;
}
void CAsyncSocketEx::AttachHandle(SOCKET hSocket)
{
ASSERT(m_pLocalAsyncSocketExThreadData);
VERIFY(m_pLocalAsyncSocketExThreadData->m_pHelperWindow->AddSocket(this, m_SocketData.nSocketIndex));
#ifndef NOSOCKETSTATES
SetState(attached);
#endif //NOSOCKETSTATES
}
void CAsyncSocketEx::DetachHandle(SOCKET hSocket)
{
ASSERT(m_pLocalAsyncSocketExThreadData);
if (!m_pLocalAsyncSocketExThreadData)
return;
ASSERT(m_pLocalAsyncSocketExThreadData->m_pHelperWindow);
if (!m_pLocalAsyncSocketExThreadData->m_pHelperWindow)
return;
VERIFY(m_pLocalAsyncSocketExThreadData->m_pHelperWindow->RemoveSocket(this, m_SocketData.nSocketIndex));
#ifndef NOSOCKETSTATES
SetState(notsock);
#endif //NOSOCKETSTATES
}
void CAsyncSocketEx::Close()
{
#ifndef NOSOCKETSTATES
m_nPendingEvents = 0;
#endif //NOSOCKETSTATES
#ifndef NOLAYERS
if (m_pFirstLayer)
m_pFirstLayer->Close();
#endif //NOLAYERS
if (m_SocketData.hSocket != INVALID_SOCKET)
{
VERIFY((closesocket(m_SocketData.hSocket) != SOCKET_ERROR));
DetachHandle(m_SocketData.hSocket);
m_SocketData.hSocket = INVALID_SOCKET;
}
if (m_SocketData.addrInfo)
{
p_freeaddrinfo(m_SocketData.addrInfo);
m_SocketData.addrInfo = 0;
m_SocketData.nextAddr = 0;
}
m_SocketData.nFamily = AF_UNSPEC;
delete [] m_lpszSocketAddress;
m_lpszSocketAddress = 0;
m_nSocketPort = 0;
#ifndef NOLAYERS
RemoveAllLayers();
#endif //NOLAYERS
delete [] m_pAsyncGetHostByNameBuffer;
m_pAsyncGetHostByNameBuffer = NULL;
if (m_hAsyncGetHostByNameHandle)
WSACancelAsyncRequest(m_hAsyncGetHostByNameHandle);
m_hAsyncGetHostByNameHandle = NULL;
m_SocketData.onCloseCalled = false;
}
BOOL CAsyncSocketEx::InitAsyncSocketExInstance()
{
//Check if already initialized
if (m_pLocalAsyncSocketExThreadData)
return TRUE;
DWORD id=GetCurrentThreadId();
m_sGlobalCriticalSection.Lock();
//Get thread specific data
if (m_spAsyncSocketExThreadDataList)
{
t_AsyncSocketExThreadDataList *pList=m_spAsyncSocketExThreadDataList;
while (pList)
{
ASSERT(pList->pThreadData);
ASSERT(pList->pThreadData->nInstanceCount>0);
if (pList->pThreadData->nThreadId==id)
{
m_pLocalAsyncSocketExThreadData=pList->pThreadData;
m_pLocalAsyncSocketExThreadData->nInstanceCount++;
break;
}
pList=pList->pNext;
}
//Current thread yet has no sockets
if (!pList)
{
//Initialize data for current thread
pList=new t_AsyncSocketExThreadDataList;
pList->pNext=m_spAsyncSocketExThreadDataList;
m_spAsyncSocketExThreadDataList=pList;
m_pLocalAsyncSocketExThreadData=new t_AsyncSocketExThreadData;
m_pLocalAsyncSocketExThreadData->nInstanceCount=1;
m_pLocalAsyncSocketExThreadData->nThreadId=id;
m_pLocalAsyncSocketExThreadData->m_pHelperWindow=new CAsyncSocketExHelperWindow(m_pLocalAsyncSocketExThreadData);
m_spAsyncSocketExThreadDataList->pThreadData=m_pLocalAsyncSocketExThreadData;
}
}
else
{ //No thread has instances of CAsyncSocketEx; Initialize data
m_spAsyncSocketExThreadDataList=new t_AsyncSocketExThreadDataList;
m_spAsyncSocketExThreadDataList->pNext=0;
m_pLocalAsyncSocketExThreadData=new t_AsyncSocketExThreadData;
m_pLocalAsyncSocketExThreadData->nInstanceCount=1;
m_pLocalAsyncSocketExThreadData->nThreadId=id;
m_pLocalAsyncSocketExThreadData->m_pHelperWindow=new CAsyncSocketExHelperWindow(m_pLocalAsyncSocketExThreadData);
m_spAsyncSocketExThreadDataList->pThreadData=m_pLocalAsyncSocketExThreadData;
m_hDll = LoadLibrary(_T("WS2_32.dll"));
if (m_hDll)
{
p_getaddrinfo = (t_getaddrinfo)GetProcAddress(m_hDll, "getaddrinfo");
p_freeaddrinfo = (t_freeaddrinfo)GetProcAddress(m_hDll, "freeaddrinfo");
if (!p_getaddrinfo || !p_freeaddrinfo)
{
p_getaddrinfo = 0;
p_freeaddrinfo = 0;
FreeLibrary(m_hDll);
m_hDll = 0;
}
}
}
m_sGlobalCriticalSection.Unlock();
return TRUE;
}
void CAsyncSocketEx::FreeAsyncSocketExInstance()
{
//Check if already freed
if (!m_pLocalAsyncSocketExThreadData)
return;
for (std::list<CAsyncSocketEx*>::iterator iter = m_pLocalAsyncSocketExThreadData->layerCloseNotify.begin(); iter != m_pLocalAsyncSocketExThreadData->layerCloseNotify.end(); iter++)
{
if (*iter != this)
continue;
m_pLocalAsyncSocketExThreadData->layerCloseNotify.erase(iter);
if (m_pLocalAsyncSocketExThreadData->layerCloseNotify.empty())
KillTimer(m_pLocalAsyncSocketExThreadData->m_pHelperWindow->GetHwnd(), 1);
break;
}
DWORD id=m_pLocalAsyncSocketExThreadData->nThreadId;
m_sGlobalCriticalSection.Lock();
ASSERT(m_spAsyncSocketExThreadDataList);
t_AsyncSocketExThreadDataList *pList=m_spAsyncSocketExThreadDataList;
t_AsyncSocketExThreadDataList *pPrev=0;
//Serach for data for current thread and decrease instance count
while (pList)
{
ASSERT(pList->pThreadData);
ASSERT(pList->pThreadData->nInstanceCount>0);
if (pList->pThreadData->nThreadId==id)
{
ASSERT(m_pLocalAsyncSocketExThreadData==pList->pThreadData);
m_pLocalAsyncSocketExThreadData->nInstanceCount--;
//Freeing last instance?
//If so, destroy helper window
if (!m_pLocalAsyncSocketExThreadData->nInstanceCount)
{
delete m_pLocalAsyncSocketExThreadData->m_pHelperWindow;
delete m_pLocalAsyncSocketExThreadData;
if (pPrev)
pPrev->pNext=pList->pNext;
else
m_spAsyncSocketExThreadDataList=pList->pNext;
delete pList;
// Last thread closed, free dll
if (!m_spAsyncSocketExThreadDataList)
{
if (m_hDll)
{
p_getaddrinfo = 0;
p_freeaddrinfo = 0;
FreeLibrary(m_hDll);
m_hDll = 0;
}
}
break;
}
break;
}
pPrev=pList;
pList=pList->pNext;
ASSERT(pList);
}
m_sGlobalCriticalSection.Unlock();
}
int CAsyncSocketEx::Receive(void* lpBuf, int nBufLen, int nFlags /*=0*/)
{
#ifndef NOLAYERS
if (m_pFirstLayer)
return m_pFirstLayer->Receive(lpBuf, nBufLen, nFlags);
else
#endif //NOLAYERS
return recv(m_SocketData.hSocket, (LPSTR)lpBuf, nBufLen, nFlags);
}
int CAsyncSocketEx::Send(const void* lpBuf, int nBufLen, int nFlags /*=0*/)
{
#ifndef NOLAYERS
if (m_pFirstLayer)
return m_pFirstLayer->Send(lpBuf, nBufLen, nFlags);
else
#endif //NOLAYERS
return send(m_SocketData.hSocket, (LPSTR)lpBuf, nBufLen, nFlags);
}
BOOL CAsyncSocketEx::Connect(LPCTSTR lpszHostAddress, UINT nHostPort)
{
#ifndef NOLAYERS
if (m_pFirstLayer)
{
BOOL res = m_pFirstLayer->Connect(lpszHostAddress, nHostPort);
#ifndef NOSOCKETSTATES
if (res || GetLastError()==WSAEWOULDBLOCK)
SetState(connecting);
#endif //NOSOCKETSTATES
return res;
} else
#endif //NOLAYERS
if (m_SocketData.nFamily == AF_INET)
{
USES_CONVERSION;
ASSERT(lpszHostAddress != NULL);
SOCKADDR_IN sockAddr;
memset(&sockAddr,0,sizeof(sockAddr));
LPSTR lpszAscii = T2A((LPTSTR)lpszHostAddress);
sockAddr.sin_family = AF_INET;
sockAddr.sin_addr.s_addr = inet_addr(lpszAscii);
if (sockAddr.sin_addr.s_addr == INADDR_NONE)
{
if (m_pAsyncGetHostByNameBuffer)
delete [] m_pAsyncGetHostByNameBuffer;
m_pAsyncGetHostByNameBuffer=new char[MAXGETHOSTSTRUCT];
m_nAsyncGetHostByNamePort=nHostPort;
m_hAsyncGetHostByNameHandle=WSAAsyncGetHostByName(GetHelperWindowHandle(), WM_USER+1, lpszAscii, m_pAsyncGetHostByNameBuffer, MAXGETHOSTSTRUCT);
if (!m_hAsyncGetHostByNameHandle)
return FALSE;
WSASetLastError(WSAEWOULDBLOCK);
#ifndef NOSOCKETSTATES
SetState(connecting);
#endif //NOSOCKETSTATES
return FALSE;
}
sockAddr.sin_port = htons((u_short)nHostPort);
return CAsyncSocketEx::Connect((SOCKADDR*)&sockAddr, sizeof(sockAddr));
}
else
{
if (!p_getaddrinfo)
{
WSASetLastError(WSAEPROTONOSUPPORT);
return FALSE;
}
USES_CONVERSION;
ASSERT( lpszHostAddress != NULL );
if (m_SocketData.addrInfo)
{
p_freeaddrinfo(m_SocketData.addrInfo);
m_SocketData.addrInfo = 0;
m_SocketData.nextAddr = 0;
}
addrinfo hints;
int error;
BOOL ret = TRUE;
char port[10];
memset(&hints, 0, sizeof(addrinfo));
hints.ai_family = m_SocketData.nFamily;
hints.ai_socktype = SOCK_STREAM;
_snprintf(port, 9, "%lu", nHostPort);
error = p_getaddrinfo(T2CA(lpszHostAddress), port, &hints, &m_SocketData.addrInfo);
if (error)
return FALSE;
for (m_SocketData.nextAddr = m_SocketData.addrInfo; m_SocketData.nextAddr; m_SocketData.nextAddr = m_SocketData.nextAddr->ai_next)
{
bool newSocket = false;
if (m_SocketData.nFamily == AF_UNSPEC)
{
newSocket = true;
m_SocketData.hSocket = socket(m_SocketData.nextAddr->ai_family, m_SocketData.nextAddr->ai_socktype, m_SocketData.nextAddr->ai_protocol);
if (m_SocketData.hSocket == INVALID_SOCKET)
continue;
m_SocketData.nFamily = m_SocketData.nextAddr->ai_family;
AttachHandle(m_SocketData.hSocket);
if (!AsyncSelect(m_lEvent))
{
if (newSocket)
{
DetachHandle(m_SocketData.hSocket);
closesocket(m_SocketData.hSocket);
m_SocketData.hSocket = INVALID_SOCKET;
}
continue;
}
}
else if (m_SocketData.hSocket == INVALID_SOCKET)
continue;
#ifndef NOLAYERS
if (m_pFirstLayer)
{
if (WSAAsyncSelect(m_SocketData.hSocket, GetHelperWindowHandle(), m_SocketData.nSocketIndex+WM_SOCKETEX_NOTIFY, FD_READ | FD_WRITE | FD_OOB | FD_ACCEPT | FD_CONNECT | FD_CLOSE))
{
if (newSocket)
{
m_SocketData.nFamily = AF_UNSPEC;
DetachHandle(m_SocketData.hSocket);
closesocket(m_SocketData.hSocket);
m_SocketData.hSocket = INVALID_SOCKET;
}
continue;
}
}
#endif //NOLAYERS
if (newSocket)
{
m_SocketData.nFamily = m_SocketData.nextAddr->ai_family;
if (!Bind(m_nSocketPort, m_lpszSocketAddress))
{
m_SocketData.nFamily = AF_UNSPEC;
DetachHandle(m_SocketData.hSocket);
closesocket(m_SocketData.hSocket);
m_SocketData.hSocket = INVALID_SOCKET;
continue;
}
}
if (!(ret = CAsyncSocketEx::Connect(m_SocketData.nextAddr->ai_addr, m_SocketData.nextAddr->ai_addrlen)) && GetLastError() != WSAEWOULDBLOCK)
{
if (newSocket)
{
m_SocketData.nFamily = AF_UNSPEC;
DetachHandle(m_SocketData.hSocket);
closesocket(m_SocketData.hSocket);
m_SocketData.hSocket = INVALID_SOCKET;
}
continue;
}
break;
}
if (m_SocketData.nextAddr)
m_SocketData.nextAddr = m_SocketData.nextAddr->ai_next;
if (!m_SocketData.nextAddr)
{
p_freeaddrinfo(m_SocketData.addrInfo);
m_SocketData.nextAddr = 0;
m_SocketData.addrInfo = 0;
}
if (m_SocketData.hSocket == INVALID_SOCKET || !ret)
return FALSE;
else
return TRUE;
}
}
BOOL CAsyncSocketEx::Connect(const SOCKADDR* lpSockAddr, int nSockAddrLen)
{
BOOL res;
#ifndef NOLAYERS
if (m_pFirstLayer)
res = SOCKET_ERROR!=m_pFirstLayer->Connect(lpSockAddr, nSockAddrLen);
else
#endif //NOLAYERS
res = SOCKET_ERROR!=connect(m_SocketData.hSocket, lpSockAddr, nSockAddrLen);
#ifndef NOSOCKETSTATES
if (res || GetLastError()==WSAEWOULDBLOCK)
SetState(connecting);
#endif //NOSOCKETSTATES
return res;
}
BOOL CAsyncSocketEx::GetPeerName( CStdString& rPeerAddress, UINT& rPeerPort )
{
#ifndef NOLAYERS
if (m_pFirstLayer)
return m_pFirstLayer->GetPeerName(rPeerAddress, rPeerPort);
#endif NOLAYERS
SOCKADDR* sockAddr = 0;
int nSockAddrLen = 0;
if (m_SocketData.nFamily == AF_INET6)
{
sockAddr = (SOCKADDR*)new SOCKADDR_IN6;
nSockAddrLen = sizeof(SOCKADDR_IN6);
}
else if (m_SocketData.nFamily == AF_INET)
{
sockAddr = (SOCKADDR*)new SOCKADDR_IN;
nSockAddrLen = sizeof(SOCKADDR_IN);
}
else
{
WSASetLastError(WSAEOPNOTSUPP);
return FALSE;
}
memset(sockAddr, 0, nSockAddrLen);
BOOL bResult = GetPeerName(sockAddr, &nSockAddrLen);
if (bResult)
{
if (m_SocketData.nFamily == AF_INET6)
{
rPeerPort = ntohs(((SOCKADDR_IN6*)sockAddr)->sin6_port);
LPTSTR buf = Inet6AddrToString(((SOCKADDR_IN6*)sockAddr)->sin6_addr);
rPeerAddress = buf;
delete [] buf;
}
else if (m_SocketData.nFamily == AF_INET)
{
rPeerPort = ntohs(((SOCKADDR_IN*)sockAddr)->sin_port);
rPeerAddress = inet_ntoa(((SOCKADDR_IN*)sockAddr)->sin_addr);
}
else
{
delete sockAddr;
return FALSE;
}
}
delete sockAddr;
return bResult;
}
BOOL CAsyncSocketEx::GetPeerName( SOCKADDR* lpSockAddr, int* lpSockAddrLen )
{
#ifndef NOLAYERS
if (m_pFirstLayer)
return m_pFirstLayer->GetPeerName(lpSockAddr, lpSockAddrLen);
#endif //NOLAYERS
if (!getpeername(m_SocketData.hSocket, lpSockAddr, lpSockAddrLen))
return TRUE;
else
return FALSE;
}
BOOL CAsyncSocketEx::GetSockName(CStdString& rSocketAddress, UINT& rSocketPort)
{
SOCKADDR* sockAddr = 0;
int nSockAddrLen = 0;
if (m_SocketData.nFamily == AF_INET6)
{
sockAddr = (SOCKADDR*)new SOCKADDR_IN6;
nSockAddrLen = sizeof(SOCKADDR_IN6);
}
else if (m_SocketData.nFamily == AF_INET)
{
sockAddr = (SOCKADDR*)new SOCKADDR_IN;
nSockAddrLen = sizeof(SOCKADDR_IN);
}
else
{
WSASetLastError(WSAEOPNOTSUPP);
return FALSE;
}
memset(sockAddr, 0, nSockAddrLen);
BOOL bResult = GetSockName(sockAddr, &nSockAddrLen);
if (bResult)
{
if (m_SocketData.nFamily == AF_INET6)
{
rSocketPort = ntohs(((SOCKADDR_IN6*)sockAddr)->sin6_port);
LPTSTR buf = Inet6AddrToString(((SOCKADDR_IN6*)sockAddr)->sin6_addr);
rSocketAddress = buf;
delete [] buf;
}
else if (m_SocketData.nFamily == AF_INET)
{
rSocketPort = ntohs(((SOCKADDR_IN*)sockAddr)->sin_port);
rSocketAddress = inet_ntoa(((SOCKADDR_IN*)sockAddr)->sin_addr);
}
else
{
delete sockAddr;
return FALSE;
}
}
delete sockAddr;
return bResult;
}
BOOL CAsyncSocketEx::GetSockName( SOCKADDR* lpSockAddr, int* lpSockAddrLen )
{
if ( !getsockname(m_SocketData.hSocket, lpSockAddr, lpSockAddrLen) )
return TRUE;
else
return FALSE;
}
BOOL CAsyncSocketEx::ShutDown(int nHow /*=sends*/)
{
#ifndef NOLAYERS
if (m_pFirstLayer)
{
return m_pFirstLayer->ShutDown();
}
else
#endif //NOLAYERS
{
if (!shutdown(m_SocketData.hSocket, nHow))
return TRUE;
else
return FALSE;
}
}
SOCKET CAsyncSocketEx::Detach()
{
SOCKET socket = m_SocketData.hSocket;
DetachHandle(socket);
m_SocketData.hSocket = INVALID_SOCKET;
m_SocketData.nFamily = AF_UNSPEC;
return socket;
}
BOOL CAsyncSocketEx::Attach(SOCKET hSocket, long lEvent /*= FD_READ | FD_WRITE | FD_OOB | FD_ACCEPT | FD_CONNECT | FD_CLOSE*/)
{
if (hSocket==INVALID_SOCKET || !hSocket)
return FALSE;
VERIFY(InitAsyncSocketExInstance());
m_SocketData.hSocket = hSocket;
sockaddr_storage addr;
memset(&addr, 0, sizeof(sockaddr_storage));
int len = sizeof(addr);
if (getsockname(m_SocketData.hSocket, reinterpret_cast<sockaddr*>(&addr), &len) != 0)
return FALSE;
m_SocketData.nFamily = addr.ss_family;
AttachHandle(hSocket);
#ifndef NOLAYERS
if (m_pFirstLayer)
{
m_lEvent = lEvent;
return !WSAAsyncSelect(m_SocketData.hSocket, GetHelperWindowHandle(), m_SocketData.nSocketIndex+WM_SOCKETEX_NOTIFY, FD_READ | FD_WRITE | FD_OOB | FD_ACCEPT | FD_CONNECT | FD_CLOSE);
}
else
#endif //NOLAYERS
{
return AsyncSelect(lEvent);
}
}
BOOL CAsyncSocketEx::AsyncSelect( long lEvent /*= FD_READ | FD_WRITE | FD_OOB | FD_ACCEPT | FD_CONNECT | FD_CLOSE*/ )
{
ASSERT(m_pLocalAsyncSocketExThreadData);
m_lEvent = lEvent;
#ifndef NOLAYERS
if (m_pFirstLayer)
return TRUE;
else
#endif //NOLAYERS
{
if (m_SocketData.hSocket == INVALID_SOCKET && m_SocketData.nFamily == AF_UNSPEC)
return true;
if ( !WSAAsyncSelect(m_SocketData.hSocket, GetHelperWindowHandle(), m_SocketData.nSocketIndex+WM_SOCKETEX_NOTIFY, lEvent) )
return TRUE;
else
return FALSE;
}
return TRUE;
}
BOOL CAsyncSocketEx::Listen( int nConnectionBacklog /*=5*/ )
{
#ifndef NOLAYERS
if (m_pFirstLayer)
return m_pFirstLayer->Listen(nConnectionBacklog);
#endif //NOLAYERS
if (!listen(m_SocketData.hSocket, nConnectionBacklog))
{
#ifndef NOSOCKETSTATES
SetState(listening);
#endif //NOSOCKETSTATES
return TRUE;
}
else
return FALSE;
}
BOOL CAsyncSocketEx::Accept( CAsyncSocketEx& rConnectedSocket, SOCKADDR* lpSockAddr /*=NULL*/, int* lpSockAddrLen /*=NULL*/ )
{
ASSERT(rConnectedSocket.m_SocketData.hSocket == INVALID_SOCKET);
#ifndef NOLAYERS
if (m_pFirstLayer)
{
return m_pFirstLayer->Accept(rConnectedSocket, lpSockAddr, lpSockAddrLen);
}
else
#endif //NOLAYERS
{
SOCKET hTemp = accept(m_SocketData.hSocket, lpSockAddr, lpSockAddrLen);
if (hTemp == INVALID_SOCKET)
return FALSE;
VERIFY(rConnectedSocket.InitAsyncSocketExInstance());
rConnectedSocket.m_SocketData.hSocket=hTemp;
rConnectedSocket.AttachHandle(hTemp);
rConnectedSocket.SetFamily(GetFamily());
#ifndef NOSOCKETSTATES
rConnectedSocket.SetState(connected);
#endif //NOSOCKETSTATES
}
return TRUE;
}
BOOL CAsyncSocketEx::IOCtl( long lCommand, DWORD* lpArgument )
{
return ioctlsocket(m_SocketData.hSocket, lCommand, lpArgument) != SOCKET_ERROR;
}
int CAsyncSocketEx::GetLastError()
{
return WSAGetLastError();
}
BOOL CAsyncSocketEx::TriggerEvent(long lEvent)
{
if (m_SocketData.hSocket==INVALID_SOCKET)
return FALSE;
ASSERT(m_pLocalAsyncSocketExThreadData);
ASSERT(m_pLocalAsyncSocketExThreadData->m_pHelperWindow);
ASSERT(m_SocketData.nSocketIndex!=-1);
#ifndef NOLAYERS
if (m_pFirstLayer)
{
CAsyncSocketExLayer::t_LayerNotifyMsg *pMsg = new CAsyncSocketExLayer::t_LayerNotifyMsg;
pMsg->hSocket = m_SocketData.hSocket;
pMsg->lEvent=lEvent%0xFFFF;
pMsg->pLayer=0;
BOOL res=PostMessage(GetHelperWindowHandle(), WM_USER, (WPARAM)m_SocketData.nSocketIndex, (LPARAM)pMsg);
if (!res)
delete pMsg;
return res;
}
else
#endif //NOLAYERS
return PostMessage(GetHelperWindowHandle(), m_SocketData.nSocketIndex+WM_SOCKETEX_NOTIFY, m_SocketData.hSocket, lEvent%0xFFFF);
}
SOCKET CAsyncSocketEx::GetSocketHandle()
{
return m_SocketData.hSocket;
}
HWND CAsyncSocketEx::GetHelperWindowHandle()
{
if (!m_pLocalAsyncSocketExThreadData)
return 0;
if (!m_pLocalAsyncSocketExThreadData->m_pHelperWindow)
return 0;
return m_pLocalAsyncSocketExThreadData->m_pHelperWindow->GetHwnd();
}
#ifndef NOLAYERS
BOOL CAsyncSocketEx::AddLayer(CAsyncSocketExLayer *pLayer)
{
ASSERT(pLayer);
pLayer->m_nFamily = m_SocketData.nFamily;
if (m_pFirstLayer)
{
ASSERT(m_pLastLayer);
m_pLastLayer=m_pLastLayer->AddLayer(pLayer, this);
return m_pLastLayer?TRUE:FALSE;
}
else
{
ASSERT(!m_pLastLayer);
pLayer->Init(0, this);
m_pFirstLayer=pLayer;
m_pLastLayer=m_pFirstLayer;
if (m_SocketData.hSocket != INVALID_SOCKET)
if (WSAAsyncSelect(m_SocketData.hSocket, GetHelperWindowHandle(), m_SocketData.nSocketIndex+WM_SOCKETEX_NOTIFY, FD_READ | FD_WRITE | FD_OOB | FD_ACCEPT | FD_CONNECT | FD_CLOSE))
return FALSE;
}
return TRUE;
}
void CAsyncSocketEx::RemoveAllLayers()
{
for (std::list<t_callbackMsg>::iterator iter = m_pendingCallbacks.begin(); iter != m_pendingCallbacks.end(); iter++)
delete [] iter->str;
m_pendingCallbacks.clear();
m_pFirstLayer = 0;
m_pLastLayer = 0;
if (!m_pLocalAsyncSocketExThreadData)
return;
if (!m_pLocalAsyncSocketExThreadData->m_pHelperWindow)
return;
m_pLocalAsyncSocketExThreadData->m_pHelperWindow->RemoveLayers(this);
}
int CAsyncSocketEx::OnLayerCallback(std::list<t_callbackMsg>& callbacks)
{
for (std::list<t_callbackMsg>::iterator iter = callbacks.begin(); iter != callbacks.end(); iter++)
{
delete [] iter->str;
}
return 0;
}
BOOL CAsyncSocketEx::IsLayerAttached() const
{
return m_pFirstLayer ? TRUE : FALSE;
}
#endif //NOLAYERS
BOOL CAsyncSocketEx::GetSockOpt(int nOptionName, void* lpOptionValue, int* lpOptionLen, int nLevel /*=SOL_SOCKET*/)
{
return (SOCKET_ERROR != getsockopt(m_SocketData.hSocket, nLevel, nOptionName, (LPSTR)lpOptionValue, lpOptionLen));
}
BOOL CAsyncSocketEx::SetSockOpt(int nOptionName, const void* lpOptionValue, int nOptionLen, int nLevel /*=SOL_SOCKET*/)
{
return (SOCKET_ERROR != setsockopt(m_SocketData.hSocket, nLevel, nOptionName, (LPSTR)lpOptionValue, nOptionLen));
}
#ifndef NOSOCKETSTATES
int CAsyncSocketEx::GetState() const
{
return m_nState;
}
void CAsyncSocketEx::SetState(int nState)
{
m_nState = nState;
}
#endif //NOSOCKETSTATES
int CAsyncSocketEx::GetFamily() const
{
return m_SocketData.nFamily;
}
bool CAsyncSocketEx::SetFamily(int nFamily)
{
if (m_SocketData.nFamily != AF_UNSPEC)
return false;
m_SocketData.nFamily = nFamily;
return true;
}
bool CAsyncSocketEx::TryNextProtocol()
{
DetachHandle(m_SocketData.hSocket);
closesocket(m_SocketData.hSocket);
m_SocketData.hSocket = INVALID_SOCKET;
BOOL ret = FALSE;
for (; m_SocketData.nextAddr; m_SocketData.nextAddr = m_SocketData.nextAddr->ai_next)
{
m_SocketData.hSocket = socket(m_SocketData.nextAddr->ai_family, m_SocketData.nextAddr->ai_socktype, m_SocketData.nextAddr->ai_protocol);
if (m_SocketData.hSocket == INVALID_SOCKET)
continue;
AttachHandle(m_SocketData.hSocket);
m_SocketData.nFamily = m_SocketData.nextAddr->ai_family;
if (!AsyncSelect(m_lEvent))
{
DetachHandle(m_SocketData.hSocket);
closesocket(m_SocketData.hSocket);
m_SocketData.hSocket = INVALID_SOCKET;
continue;
}
#ifndef NOLAYERS
if (m_pFirstLayer)
{
if (WSAAsyncSelect(m_SocketData.hSocket, GetHelperWindowHandle(), m_SocketData.nSocketIndex+WM_SOCKETEX_NOTIFY, FD_READ | FD_WRITE | FD_OOB | FD_ACCEPT | FD_CONNECT | FD_CLOSE))
{
DetachHandle(m_SocketData.hSocket);
closesocket(m_SocketData.hSocket);
m_SocketData.hSocket = INVALID_SOCKET;
continue;
}
}
#endif //NOLAYERS
if (!Bind(m_nSocketPort, m_lpszSocketAddress))
{
DetachHandle(m_SocketData.hSocket);
closesocket(m_SocketData.hSocket);
m_SocketData.hSocket = INVALID_SOCKET;
continue;
}
ret = CAsyncSocketEx::Connect(m_SocketData.nextAddr->ai_addr, m_SocketData.nextAddr->ai_addrlen);
if (!ret && GetLastError() != WSAEWOULDBLOCK)
{
DetachHandle(m_SocketData.hSocket);
closesocket(m_SocketData.hSocket);
m_SocketData.hSocket = INVALID_SOCKET;
continue;
}
ret = true;
break;
}
if (m_SocketData.nextAddr)
m_SocketData.nextAddr = m_SocketData.nextAddr->ai_next;
if (!m_SocketData.nextAddr)
{
p_freeaddrinfo(m_SocketData.addrInfo);
m_SocketData.nextAddr = 0;
m_SocketData.addrInfo = 0;
}
if (m_SocketData.hSocket == INVALID_SOCKET || !ret)
return FALSE;
else
return TRUE;
}
#ifndef NOLAYERS
void CAsyncSocketEx::AddCallbackNotification(const t_callbackMsg& msg)
{
m_pendingCallbacks.push_back(msg);
if(m_pendingCallbacks.size() == 1 && m_SocketData.nSocketIndex != -1)
PostMessage(GetHelperWindowHandle(), WM_USER + 2, (WPARAM)m_SocketData.nSocketIndex, 0);
}
#endif //NOLAYERS
void CAsyncSocketEx::ResendCloseNotify()
{
for (std::list<CAsyncSocketEx*>::iterator iter = m_pLocalAsyncSocketExThreadData->layerCloseNotify.begin(); iter != m_pLocalAsyncSocketExThreadData->layerCloseNotify.end(); iter++)
{
if (*iter == this)
return;
}
m_pLocalAsyncSocketExThreadData->layerCloseNotify.push_back(this);
if (m_pLocalAsyncSocketExThreadData->layerCloseNotify.size() == 1)
{
SetTimer(m_pLocalAsyncSocketExThreadData->m_pHelperWindow->GetHwnd(), 1, 10, 0);
}
}