我在 Ubuntu Linux 上运行代码它应该使用 Set 并选择检查监听套接字何时有活动(即有人试图连接)并让他们连接,问题是选择总是返回 0,当我尝试连接时它只是直接连接。但是在服务器上 Accept 永远不会被调用,因为 select 总是返回 0,所以我想知道是什么原因造成的?
namespace SocketLib
{
const int MAX = FD_SETSIZE;
class SocketSet
{
public:
SocketSet();
void AddSocket( const Socket& p_sock );
void RemoveSocket( const Socket& p_sock );
inline int Poll( long p_time = 0 )
{
// this is the time value structure. It will determine how long
// the select function will wait.
struct timeval t = { 0, p_time * 1000 };
// copy the set over into the activity set.
m_activityset = m_set;
// now run select() on the sockets.
#ifdef WIN32
return select( 0, &m_activityset, 0, 0, &t );
#else
if( m_socketdescs.size() == 0 ) return 0;
return select( *(m_socketdescs.rbegin()), &m_activityset, 0, 0, &t );
#endif
}
inline bool HasActivity( const Socket& p_sock )
{
return FD_ISSET( p_sock.GetSock(), &m_activityset ) != 0;
}
protected:
// a set representing the socket descriptors.
fd_set m_set;
// this set will represent all the sockets that have activity on them.
fd_set m_activityset;
// this is only used for linux, since select() requires the largest
// descriptor +1 passed into it. BLAH!
#ifndef WIN32
std::set<sock> m_socketdescs;
#endif
};
是运行民意调查的代码以防万一
附加代码是:
#include <algorithm>
#include "SocketSet.h"
namespace SocketLib
{
SocketSet::SocketSet()
{
FD_ZERO( &m_set );
FD_ZERO( &m_activityset );
}
void SocketSet::AddSocket( const Socket& p_sock )
{
// add the socket desc to the set
FD_SET( p_sock.GetSock(), &m_set );
// if linux, then record the descriptor into the vector,
// and check if it's the largest descriptor.
#ifndef WIN32
m_socketdescs.insert( p_sock.GetSock() );
#endif
}
void SocketSet::RemoveSocket( const Socket& p_sock )
{
FD_CLR( p_sock.GetSock(), &m_set );
#ifndef WIN32
// remove the descriptor from the vector
m_socketdescs.erase( p_sock.GetSock() );
#endif
}
} // end namespace SocketSet
它也在这里使用 { // 定义一个数据套接字,它将接收来自监听的连接 // 套接字 DataSocket datasock;
// detect if any sockets have action on them
int i=m_set.Poll();
if( i > 0 )
{
// loop through every listening socket
for( size_t s = 0; s < m_sockets.size(); s++ )
{
// check to see if the current socket has a connection waiting
if( m_set.HasActivity( m_sockets[s] ) )
{
try
{
// accept the connection
datasock = m_sockets[s].Accept();
// run the action function on the new data socket
m_manager->NewConnection( datasock );
}
如您所见,它不会执行 .Accept 直到它从选择中获得活动之后,但它永远不会得到那么远的绑定和侦听调用在这里模板 void ListeningManager::AddPort(port p_port) { if( m_sockets.size( ) == MAX ) { 异常 e( ESocketLimitReached ); 抛出(e);}
// create a new socket
ListeningSocket lsock;
// listen on the requested port
lsock.Listen( p_port );
// make the socket non-blocking, so that it won't block if a
// connection exploit is used when accepting (see Chapter 4)
lsock.SetBlocking( false );
// add the socket to the socket vector
m_sockets.push_back( lsock );
// add the socket descriptor to the set
m_set.AddSocket( lsock );
}