/** @fn void CEpollIOLoop::Run()
* @brief
* @return
*/
void CEpollIOLoop::Run()
{
struct epoll_event ev;
ev.data.fd=m_waker.GetWakeSocket();
//设置要处理的事件类型
ev.events=EPOLLIN;
epoll_ctl(eid, EPOLL_CTL_ADD, &ev);
while (True)
{
struct epoll_event events[EPOLL_SIZE];
HPR_INT32 nfds = epoll_wait(m_eid, events, EPOLL_SIZE, -1);
if (nfds <= 0)
continue;
for (HPR_INT32 i = 0; i < nfds; i++)
{
HPR_SOCKET sock = events[i].data.fd;
if (sock == m_waker.GetWakeSocket())
{
m_waker.Recv();
}
else if (events[i].events & EPOLLIN)
{
CBaseIOStream* pIOStream = _GetHandlerBySock(sock);
if (pIOStream != NULL)
{
if (pIOStream->GetSockType() == SOCK_TCP_SERVER)
{
pIOStream->OnAccept();
}
else
{
pIOStream->OnRecv();
}
}
else
{
//调试的时候可能数据还没读,但是对象已经没了,需要清掉
//貌似epoll会在调用close(sock)后会自己清除。
//epoll_ctl(eid, EPOLL_CTL_DEL, &events[i]);
}
}
}
}
}
/** @fn void CEpollIOLoop::Run()
* @brief
* @return
*/
void CEpollIOLoop::Run()
{
struct epoll_event ev;
ev.data.fd=m_waker.GetWakeSocket();
//设置要处理的事件类型
ev.events=EPOLLIN;
epoll_ctl(m_eid, EPOLL_CTL_ADD, m_waker.GetWakeSocket(), &ev);
while (TRUE)
{
struct epoll_event* events = new epoll_event[_GetEpollSize()];
int32_t nfds = epoll_wait(m_eid, events, _GetEpollSize(), -1);
if (nfds <= 0)
continue;
for (int32_t i = 0; i < nfds; i++)
{
S_SOCKET sock = events[i].data.fd;
if (sock == m_waker.GetWakeSocket())
{
m_waker.Recv();
}
else if (events[i].events & EPOLLIN)
{
CBaseIOStream* pIOStream = _GetHandlerBySock(sock);
if (pIOStream != NULL)
{
if (pIOStream->GetSockType() == SOCK_TCP_SERVER)
{
pIOStream->OnAccept();
}
else
{
pIOStream->OnRecv();
SOCKET_IO_TRACE("socket recv data, sock id: %d.", pIOStream->GetSocketID());
}
}
else
{
//调试的时候可能数据还没读,但是对象已经没了,需要清掉
//epoll也会在调用close(sock)后会自己清除。
epoll_ctl(m_eid, EPOLL_CTL_DEL, sock, &events[i]);
}
}//EPOLLIN
else if (events[i].events & EPOLLOUT)
{
CBaseIOStream* pIOStream = _GetHandlerBySock(sock);
if (pIOStream != NULL)
{
if (pIOStream->GetSockType() == SOCK_TCP_CLIENT && pIOStream->CheckConnect())
{
//连接成功
pIOStream->OnConnect(TRUE);
}
pIOStream->SendBufferAsync();
}
}//EPOLLOUT
else if (events[i].events & EPOLLERR)
{
CBaseIOStream* pIOStream = _GetHandlerBySock(sock);
if (pIOStream->GetSockType() == SOCK_TCP_CLIENT && pIOStream->CheckConnect())
{
int32_t nError, nCode;
socklen_t nLen;
nLen = sizeof(nError);
nCode = getsockopt(pIOStream->GetSocket(), SOL_SOCKET, SO_ERROR, &nError, &nLen);
if (nCode < 0 || nError)
{
//连接失败
SOCKET_IO_WARN("socket connect failed, nCode: %d, nError: %d.", nCode, nError);
pIOStream->OnConnect(FALSE);
}
}
}//EPOLLERR
}
}
}
/** @fn void CIOLoop::Run()
* @brief
* @return
*/
void CIOLoop::Run()
{
fd_set fd_read;
while (m_bCloseRequest == HPR_FALSE)
{
HPR_INT32 nSockNum = 0;
HPR_INT32 nMaxfd = 0;
FD_ZERO(&fd_read);
FD_SET(m_waker.GetWakeSocket(), &fd_read);
if(m_waker.GetWakeSocket() > nMaxfd)
nMaxfd = m_waker.GetWakeSocket();
nSockNum++;
m_MapMutex.Lock();
map<HPR_SOCK_T, CBaseIOStream*> mapTmp = m_MapIOStreamBySocket;
m_MapMutex.Unlock();
map<HPR_SOCK_T, CBaseIOStream*>::iterator it = mapTmp.begin();
for (; it != mapTmp.end(); it++)
{
FD_SET(it->first, &fd_read);
if(it->first > nMaxfd)
nMaxfd = it->first;
nSockNum++;
}
timeval tv;
tv.tv_sec = 10;
tv.tv_usec = 0;
HPR_INT32 nRet = HPR_Select(nMaxfd + 1, &fd_read, NULL, NULL, NULL);
if (nRet > 0)
{
if (HPR_FdIsSet(m_waker.GetWakeSocket(), &fd_read))
{
//stop
m_waker.Recv();
}
else
{
map<HPR_SOCK_T, CBaseIOStream*>::iterator it1 = mapTmp.begin();
for (; it1 != mapTmp.end(); it1++)
{
if (HPR_FdIsSet(it1->first, &fd_read))
{
CBaseIOStream* pIOStream = _GetHandlerBySock(it1->first);
if (pIOStream != NULL)
{
if (pIOStream->GetSockType() == SOCK_TCP_SERVER)
{
pIOStream->OnAccept();
}
else
{
pIOStream->OnRecv();
}
}
}
}
}
}
else
{
//TODO
//Error
}
}
}
/** @fn void CIOLoop::Run()
* @brief
* @return
*/
void CIOLoop::Run()
{
fd_set fd_read, fd_write, fd_error;
while (m_bCloseRequest == FALSE)
{
int nMaxfd = 0;
FD_ZERO(&fd_read);
FD_ZERO(&fd_write);
FD_ZERO(&fd_error);
FD_SET(m_waker.GetWakeSocket(), &fd_read);
if(m_waker.GetWakeSocket() > nMaxfd)
nMaxfd = m_waker.GetWakeSocket();
m_MapMutex.Lock();
map<S_SOCKET, CBaseIOStream*> mapTmp = m_MapIOStreamBySocket;
m_MapMutex.Unlock();
map<S_SOCKET, CBaseIOStream*>::iterator it = mapTmp.begin();
for (; it != mapTmp.end(); it++)
{
CBaseIOStream* pIOStream = it->second;
if (pIOStream->CheckConnect() == FALSE)
{
//如果是要检查TCP CLIENT是否连接,则不设置可读
FD_SET(it->first, &fd_read);
if(it->first > nMaxfd)
nMaxfd = it->first;
}
if (pIOStream->CheckWrite() == TRUE)
{
//设置可写
FD_SET(it->first, &fd_write);
if(it->first > nMaxfd)
nMaxfd = it->first;
//设置错误信号,用于windows的tcp connect超时检查,同时查看是否有其他触发错误
FD_SET(it->first, &fd_error);
}
}
timeval tv;
tv.tv_sec = 1;
tv.tv_usec = 0;
int nRet = select(nMaxfd + 1, &fd_read, &fd_write, &fd_error, NULL);
if (nRet > 0)
{
if (FD_ISSET(m_waker.GetWakeSocket(), &fd_read))
{
//stop
m_waker.Recv();
}
map<S_SOCKET, CBaseIOStream*>::iterator it1 = mapTmp.begin();
for (; it1 != mapTmp.end(); it1++)
{
//read
if (FD_ISSET(it1->first, &fd_read))
{
CBaseIOStream* pIOStream = _GetHandlerBySock(it1->first);
if (pIOStream != NULL)
{
if (pIOStream->GetSockType() == SOCK_TCP_SERVER)
{
pIOStream->OnAccept();
}
else
{
pIOStream->OnRecv();
}
}
}//read
//write
if (FD_ISSET(it1->first, &fd_write))
{
CBaseIOStream* pIOStream = _GetHandlerBySock(it1->first);
if (pIOStream != NULL)
{
if (pIOStream->GetSockType() == SOCK_TCP_CLIENT && pIOStream->CheckConnect())
{
#if (defined(_WIN32) || defined(_WIN64))
pIOStream->OnConnect(TRUE);
//#elif defined(__linux__) //mac???
#else
//这个是unix的处理方式,经测试linux也适用,mac同理
int32_t nError, nCode;
socklen_t nLen;
nLen = sizeof(nError);
nCode = getsockopt(pIOStream->GetSocket(), SOL_SOCKET, SO_ERROR, &nError,
&nLen);
if (nCode < 0 || nError)
{
//连接失败
//linux的超时失败是也是根据这个可以判断
SOCKET_IO_WARN("socket connect failed, nCode: %d, nError: %d.", nCode,
nError);
pIOStream->OnConnect(FALSE);
}
else
{
//连接成功
//SOCKET_IO_WARN("socket connect successed.", nCode, nError);
pIOStream->OnConnect(TRUE);
}
#endif
}
pIOStream->SendBufferAsync();
}
}//wirte
//error
if (FD_ISSET(it1->first, &fd_error))
{
CBaseIOStream* pIOStream = _GetHandlerBySock(it1->first);
if (pIOStream != NULL)
{
//windows的超时判断是利用err_fds来判断
//对于不存在的IP(即linux会报111错误),或者IP存在,端口不存在(即linux会报110错误)
//都是超时错误
if (pIOStream->CheckConnect() == TRUE)
{
SOCKET_IO_WARN("socket connect time out, remote ip: %s, port: %d.",
pIOStream->GetRemoteIP(), pIOStream->GetRemotePort());
pIOStream->OnConnect(FALSE);
}
else
{
SOCKET_IO_WARN("err_fds, %d.", (int32_t)pIOStream->GetSockType());
}
}
}//error
}//for
}// nRet > 0
else if (0 == nRet)
{
//Time Out
//map<HPR_SOCK_T, CBaseIOStream*>::iterator it1 = mapTmp.begin();
//for (; it1 != mapTmp.end(); it1++)
//{
// //write
// CBaseIOStream* pIOStream = _GetHandlerBySock(it1->first);
// if (pIOStream != NULL)
// {
// if (pIOStream->GetSockType() == SOCK_TCP_CLIENT && pIOStream->CheckConnect())
// {
// }
// }
//}
}
else
{
//TODO
//Error
SOCKET_IO_ERROR("socket select error");
break;
}
}
}