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cuberite-2a/source/cSocketThreads.cpp

530 lines
12 KiB
C++

// cSocketThreads.cpp
// Implements the cSocketThreads class representing the heart of MCS's client networking.
// This object takes care of network communication, groups sockets into threads and uses as little threads as possible for full read / write support
// For more detail, see http://forum.mc-server.org/showthread.php?tid=327
#include "Globals.h"
#include "cSocketThreads.h"
#include "cClientHandle.h"
#include "packets/cPacket_RelativeEntityMoveLook.h"
///////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// cSocketThreads:
cSocketThreads::cSocketThreads(void)
{
}
cSocketThreads::~cSocketThreads()
{
for (cSocketThreadList::iterator itr = m_Threads.begin(); itr != m_Threads.end(); ++itr)
{
delete *itr;
} // for itr - m_Threads[]
m_Threads.clear();
}
bool cSocketThreads::AddClient(cSocket * a_Socket, cCallback * a_Client)
{
// Add a (socket, client) pair for processing, data from a_Socket is to be sent to a_Client
// Try to add to existing threads:
cCSLock Lock(m_CS);
for (cSocketThreadList::iterator itr = m_Threads.begin(); itr != m_Threads.end(); ++itr)
{
if ((*itr)->IsValid() && (*itr)->HasEmptySlot())
{
(*itr)->AddClient(a_Socket, a_Client);
return true;
}
}
// No thread has free space, create a new one:
LOG("Creating a new cSocketThread (currently have %d)", m_Threads.size());
cSocketThread * Thread = new cSocketThread(this);
if (!Thread->Start())
{
// There was an error launching the thread (but it was already logged along with the reason)
delete Thread;
return false;
}
Thread->AddClient(a_Socket, a_Client);
m_Threads.push_back(Thread);
return true;
}
void cSocketThreads::RemoveClient(const cSocket * a_Socket)
{
// Remove the socket (and associated client) from processing
cCSLock Lock(m_CS);
for (cSocketThreadList::iterator itr = m_Threads.begin(); itr != m_Threads.end(); ++itr)
{
if ((*itr)->RemoveSocket(a_Socket))
{
return;
}
}
}
void cSocketThreads::RemoveClient(const cCallback * a_Client)
{
// Remove the associated socket and the client from processing
cCSLock Lock(m_CS);
for (cSocketThreadList::iterator itr = m_Threads.begin(); itr != m_Threads.end(); ++itr)
{
if ((*itr)->RemoveClient(a_Client))
{
return;
}
}
}
void cSocketThreads::NotifyWrite(const cCallback * a_Client)
{
// Notifies the thread responsible for a_Client that the client has something to write
cCSLock Lock(m_CS);
for (cSocketThreadList::iterator itr = m_Threads.begin(); itr != m_Threads.end(); ++itr)
{
if ((*itr)->NotifyWrite(a_Client))
{
return;
}
}
}
////////////////////////////////////////////////////////////////////////////////
// cSocketThreads::cSocketThread:
cSocketThreads::cSocketThread::cSocketThread(cSocketThreads * a_Parent) :
cIsThread("cSocketThread"),
m_Parent(a_Parent),
m_NumSlots(0)
{
// Nothing needed yet
}
void cSocketThreads::cSocketThread::AddClient(cSocket * a_Socket, cCallback * a_Client)
{
assert(m_NumSlots < MAX_SLOTS); // Use HasEmptySlot() to check before adding
m_Slots[m_NumSlots].m_Client = a_Client;
m_Slots[m_NumSlots].m_Socket = a_Socket;
m_Slots[m_NumSlots].m_Outgoing.clear();
m_NumSlots++;
// Notify the thread of the change:
assert(m_ControlSocket2.IsValid());
m_ControlSocket2.Send("a", 1);
}
bool cSocketThreads::cSocketThread::RemoveClient(const cCallback * a_Client)
{
// Returns true if removed, false if not found
if (m_NumSlots == 0)
{
return false;
}
for (int i = m_NumSlots - 1; i >= 0 ; --i)
{
if (m_Slots[i].m_Client != a_Client)
{
continue;
}
// Found, remove it:
m_Slots[i] = m_Slots[m_NumSlots - 1];
m_NumSlots--;
// Notify the thread of the change:
assert(m_ControlSocket2.IsValid());
m_ControlSocket2.Send("r", 1);
return true;
} // for i - m_Slots[]
// Not found
return false;
}
bool cSocketThreads::cSocketThread::RemoveSocket(const cSocket * a_Socket)
{
// Returns true if removed, false if not found
if (m_NumSlots == 0)
{
return false;
}
for (int i = m_NumSlots - 1; i >= 0 ; --i)
{
if (m_Slots[i].m_Socket != a_Socket)
{
continue;
}
// Found, remove it:
m_Slots[i] = m_Slots[m_NumSlots - 1];
m_NumSlots--;
// Notify the thread of the change:
assert(m_ControlSocket2.IsValid());
m_ControlSocket2.Send("r", 1);
return true;
} // for i - m_Slots[]
// Not found
return false;
}
bool cSocketThreads::cSocketThread::NotifyWrite(const cCallback * a_Client)
{
if (HasClient(a_Client))
{
// Notify the thread that there's another packet in the queue:
assert(m_ControlSocket2.IsValid());
m_ControlSocket2.Send("q", 1);
return true;
}
return false;
}
bool cSocketThreads::cSocketThread::HasClient(const cCallback * a_Client) const
{
for (int i = m_NumSlots - 1; i >= 0; --i)
{
if (m_Slots[i].m_Client == a_Client)
{
return true;
}
} // for i - m_Slots[]
return false;
}
bool cSocketThreads::cSocketThread::HasSocket(const cSocket * a_Socket) const
{
for (int i = m_NumSlots - 1; i >= 0; --i)
{
if (m_Slots[i].m_Socket->GetSocket() == a_Socket->GetSocket())
{
return true;
}
} // for i - m_Slots[]
return false;
}
bool cSocketThreads::cSocketThread::Start(void)
{
// Create the control socket listener
m_ControlSocket2 = cSocket::CreateSocket();
if (!m_ControlSocket2.IsValid())
{
LOGERROR("Cannot create a Control socket for a cSocketThread (\"%s\"); continuing, but server may be unreachable from now on.", cSocket::GetLastErrorString().c_str());
return false;
}
cSocket::SockAddr_In Addr;
Addr.Family = cSocket::ADDRESS_FAMILY_INTERNET;
Addr.Address = cSocket::INTERNET_ADDRESS_LOCALHOST();
Addr.Port = 0; // Any free port is okay
if (m_ControlSocket2.Bind(Addr) != 0)
{
LOGERROR("Cannot bind a Control socket for a cSocketThread (\"%s\"); continuing, but server may be unreachable from now on.", cSocket::GetLastErrorString().c_str());
m_ControlSocket2.CloseSocket();
return false;
}
if (m_ControlSocket2.Listen(1) != 0)
{
LOGERROR("Cannot listen on a Control socket for a cSocketThread (\"%s\"); continuing, but server may be unreachable from now on.", cSocket::GetLastErrorString().c_str());
m_ControlSocket2.CloseSocket();
return false;
}
if (m_ControlSocket2.GetPort() == 0)
{
LOGERROR("Cannot determine Control socket port (\"%s\"); conitnuing, but the server may be unreachable from now on.", cSocket::GetLastErrorString().c_str());
m_ControlSocket2.CloseSocket();
return false;
}
// Start the thread
if (!super::Start())
{
m_ControlSocket2.CloseSocket();
return false;
}
// Finish connecting the control socket by accepting connection from the thread's socket
cSocket tmp = m_ControlSocket2.Accept();
if (!tmp.IsValid())
{
LOGERROR("Cannot link Control sockets for a cSocketThread (\"%s\"); continuing, but server may be unreachable from now on.", cSocket::GetLastErrorString().c_str());
m_ControlSocket2.CloseSocket();
return false;
}
m_ControlSocket2.CloseSocket();
m_ControlSocket2 = tmp;
return true;
}
void cSocketThreads::cSocketThread::Execute(void)
{
// Connect the "client" part of the Control socket:
m_ControlSocket1 = cSocket::CreateSocket();
cSocket::SockAddr_In Addr;
Addr.Family = cSocket::ADDRESS_FAMILY_INTERNET;
Addr.Address = cSocket::INTERNET_ADDRESS_LOCALHOST();
Addr.Port = m_ControlSocket2.GetPort();
assert(Addr.Port != 0); // We checked in the Start() method, but let's be sure
if (m_ControlSocket1.Connect(Addr) != 0)
{
LOGERROR("Cannot connect Control sockets for a cSocketThread (\"%s\"); continuing, but the server may be unreachable from now on.", cSocket::GetLastErrorString().c_str());
m_ControlSocket2.CloseSocket();
return;
}
// The main thread loop:
while (!mShouldTerminate)
{
// Put all sockets into the Read set:
fd_set fdRead;
cSocket::xSocket Highest = m_ControlSocket1.GetSocket();
PrepareSet(&fdRead, Highest);
// Wait for the sockets:
if (select(Highest + 1, &fdRead, NULL, NULL, NULL) == -1)
{
LOG("select(R) call failed in cSocketThread: \"%s\"", cSocket::GetLastErrorString().c_str());
continue;
}
ReadFromSockets(&fdRead);
// Test sockets for writing:
fd_set fdWrite;
Highest = m_ControlSocket1.GetSocket();
PrepareSet(&fdWrite, Highest);
timeval Timeout;
Timeout.tv_sec = 0;
Timeout.tv_usec = 0;
if (select(Highest + 1, NULL, &fdWrite, NULL, &Timeout) == -1)
{
LOG("select(W) call failed in cSocketThread: \"%s\"", cSocket::GetLastErrorString().c_str());
continue;
}
WriteToSockets(&fdWrite);
RemoveClosedSockets();
} // while (!mShouldTerminate)
LOG("cSocketThread %p is terminating", this);
}
void cSocketThreads::cSocketThread::PrepareSet(fd_set * a_Set, cSocket::xSocket & a_Highest)
{
FD_ZERO(a_Set);
FD_SET(m_ControlSocket1.GetSocket(), a_Set);
cCSLock Lock(m_Parent->m_CS);
for (int i = m_NumSlots - 1; i >= 0; --i)
{
if (!m_Slots[i].m_Socket->IsValid())
{
continue;
}
cSocket::xSocket s = m_Slots[i].m_Socket->GetSocket();
FD_SET(s, a_Set);
if (s > a_Highest)
{
a_Highest = s;
}
} // for i - m_Slots[]
}
void cSocketThreads::cSocketThread::ReadFromSockets(fd_set * a_Read)
{
// Read on available sockets:
// Reset Control socket state:
if (FD_ISSET(m_ControlSocket1.GetSocket(), a_Read))
{
char Dummy[128];
m_ControlSocket1.Receive(Dummy, sizeof(Dummy), 0);
}
// Read from clients:
cCSLock Lock(m_Parent->m_CS);
for (int i = m_NumSlots - 1; i >= 0; --i)
{
if (!FD_ISSET(m_Slots[i].m_Socket->GetSocket(), a_Read))
{
continue;
}
char Buffer[1024];
int Received = m_Slots[i].m_Socket->Receive(Buffer, ARRAYCOUNT(Buffer), 0);
if (Received == 0)
{
// The socket has been closed by the remote party, close our socket and let it be removed after we process all reading
m_Slots[i].m_Socket->CloseSocket();
m_Slots[i].m_Client->SocketClosed();
}
else if (Received > 0)
{
m_Slots[i].m_Client->DataReceived(Buffer, Received);
}
else
{
// The socket has encountered an error, close it and let it be removed after we process all reading
m_Slots[i].m_Socket->CloseSocket();
m_Slots[i].m_Client->SocketClosed();
}
} // for i - m_Slots[]
}
void cSocketThreads::cSocketThread::WriteToSockets(fd_set * a_Write)
{
// Write to available client sockets:
cCSLock Lock(m_Parent->m_CS);
for (int i = m_NumSlots - 1; i >= 0; --i)
{
if (!FD_ISSET(m_Slots[i].m_Socket->GetSocket(), a_Write))
{
continue;
}
if (m_Slots[i].m_Outgoing.empty())
{
// Request another chunk of outgoing data:
m_Slots[i].m_Client->GetOutgoingData(m_Slots[i].m_Outgoing);
if (m_Slots[i].m_Outgoing.empty())
{
// Nothing ready yet
continue;
}
} // if (outgoing data is empty)
int Sent = m_Slots[i].m_Socket->Send(m_Slots[i].m_Outgoing.data(), m_Slots[i].m_Outgoing.size());
if (Sent < 0)
{
LOGWARNING("Error while writing to client \"%s\", disconnecting", m_Slots[i].m_Socket->GetIPString().c_str());
m_Slots[i].m_Socket->CloseSocket();
m_Slots[i].m_Client->SocketClosed();
return;
}
m_Slots[i].m_Outgoing.erase(0, Sent);
// _X: If there's data left, it means the client is not reading fast enough, the server would unnecessarily spin in the main loop with zero actions taken; so signalling is disabled
// This means that if there's data left, it will be sent only when there's incoming data or someone queues another packet (for any socket handled by this thread)
/*
// If there's any data left, signalize the Control socket:
if (!m_Slots[i].m_Outgoing.empty())
{
assert(m_ControlSocket2.IsValid());
m_ControlSocket2.Send("q", 1);
}
*/
} // for i - m_Slots[i]
}
void cSocketThreads::cSocketThread::RemoveClosedSockets(void)
{
// Removes sockets that have closed from m_Slots[]
cCSLock Lock(m_Parent->m_CS);
for (int i = m_NumSlots - 1; i >= 0; --i)
{
if (m_Slots[i].m_Socket->IsValid())
{
continue;
}
m_Slots[i] = m_Slots[m_NumSlots - 1];
m_NumSlots--;
} // for i - m_Slots[]
}