///////////////////////////////////////////////////////////////////////////// // Name: samples/sockbase/client.cpp // Purpose: Sockets sample for wxBase // Author: Lukasz Michalski // Modified by: // Created: 27.06.2005 // Copyright: (c) 2005 Lukasz Michalski // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// // ============================================================================ // declarations // ============================================================================ // ---------------------------------------------------------------------------- // headers // ---------------------------------------------------------------------------- #include "wx/wx.h" #include "wx/socket.h" #include "wx/event.h" #include "wx/list.h" #include "wx/cmdline.h" #include "wx/datetime.h" #include "wx/timer.h" #include "wx/thread.h" const char *GetSocketErrorMsg(int pSockError) { switch(pSockError) { case wxSOCKET_NOERROR: return "wxSOCKET_NOERROR"; case wxSOCKET_INVOP: return "wxSOCKET_INVOP"; case wxSOCKET_IOERR: return "wxSOCKET_IOERR"; case wxSOCKET_INVADDR: return "wxSOCKET_INVADDR"; case wxSOCKET_NOHOST: return "wxSOCKET_NOHOST"; case wxSOCKET_INVPORT: return "wxSOCKET_INVPORT"; case wxSOCKET_WOULDBLOCK: return "wxSOCKET_WOULDBLOCK"; case wxSOCKET_TIMEDOUT: return "wxSOCKET_TIMEDOUT"; case wxSOCKET_MEMERR: return "wxSOCKET_MEMERR"; default: return "Unknown"; } } //event sent by workers to server class //after client is served const wxEventType wxEVT_WORKER = wxNewEventType(); #define EVT_WORKER(func) DECLARE_EVENT_TABLE_ENTRY( wxEVT_WORKER, -1, -1, (wxObjectEventFunction) (wxEventFunction) (WorkerEventFunction) & func, (wxObject *) NULL ), class WorkerEvent : public wxEvent { public: WorkerEvent(void* pSender) { SetId(-1); SetEventType(wxEVT_WORKER); m_sender = pSender; m_exit = false; m_workerFailed = false; } virtual wxEvent* Clone() const wxOVERRIDE { return new WorkerEvent(*this); } void* m_sender; bool m_exit; bool m_workerFailed; }; typedef void (wxEvtHandler::*WorkerEventFunction)(WorkerEvent&); class ThreadWorker; class EventWorker; WX_DECLARE_LIST(ThreadWorker, TList); WX_DECLARE_LIST(EventWorker, EList); //main server class contains listening socket //and list of two type worker classes that serve clients class Server : public wxApp { wxDECLARE_EVENT_TABLE(); public: Server() : m_maxConnections(-1) {} ~Server() {} private: enum WorkMode { MIXED, THREADS, EVENTS }; virtual bool OnInit() wxOVERRIDE; virtual int OnExit() wxOVERRIDE; void OnInitCmdLine(wxCmdLineParser& pParser) wxOVERRIDE; bool OnCmdLineParsed(wxCmdLineParser& pParser) wxOVERRIDE; void OnSocketEvent(wxSocketEvent& pEvent); void OnWorkerEvent(WorkerEvent& pEvent); void OnTimerEvent(wxTimerEvent& pEvent); void DumpStatistics(); TList m_threadWorkers; EList m_eventWorkers; WorkMode m_workMode; wxSocketServer* m_listeningSocket; // statistics unsigned m_threadWorkersCreated; unsigned m_threadWorkersDone; unsigned m_threadWorkersFailed; unsigned m_maxThreadWorkers; unsigned m_eventWorkersCreated; unsigned m_eventWorkersDone; unsigned m_eventWorkersFailed; unsigned m_maxEventWorkers; long int m_maxConnections; unsigned short m_port; wxTimer mTimer; }; wxDECLARE_APP(Server); // just some common things shared between ThreadWorker and EventWorker class WorkerBase { protected: // outputs log message with IP and TCP port number prepended void LogWorker(const wxString& msg, wxLogLevel level = wxLOG_Info) { wxLogGeneric(level, "%s:%d %s", m_peer.IPAddress(), m_peer.Service(), msg); } wxIPV4address m_peer; }; //thread based worker reads signature and all data first from connected client //and resends data to client after reading class ThreadWorker : public wxThread, private WorkerBase { public: ThreadWorker(wxSocketBase* pSocket); virtual ExitCode Entry() wxOVERRIDE; private: wxSocketBase* m_socket; }; //event based worker reads signature and creates buffer for incoming data. //When part of data arrives this worker resends it as soon as possible. class EventWorker : public wxEvtHandler, private WorkerBase { public: EventWorker(wxSocketBase* pSock); virtual ~EventWorker(); private: wxSocketBase* m_socket; unsigned char m_signature[2]; char* m_inbuf; int m_infill; int m_size; char* m_outbuf; int m_outfill; int m_written; void OnSocketEvent(wxSocketEvent& pEvent); void DoWrite(); void DoRead(); wxDECLARE_EVENT_TABLE(); }; /******************* Implementation ******************/ wxIMPLEMENT_APP_CONSOLE(Server); #include WX_DEFINE_LIST(TList); WX_DEFINE_LIST(EList); void Server::OnInitCmdLine(wxCmdLineParser& pParser) { wxApp::OnInitCmdLine(pParser); pParser.AddSwitch("t","threads","Use thread based workers only"); pParser.AddSwitch("e","events","Use event based workers only"); pParser.AddOption("m","max","Exit after connections", wxCMD_LINE_VAL_NUMBER); pParser.AddOption("p","port","listen on given port (default 3000)", wxCMD_LINE_VAL_NUMBER); } void Server::DumpStatistics() { wxString mode; switch(m_workMode) { case EVENTS: mode = "Event based workers"; break; case THREADS: mode = "Thread based workers"; break; case MIXED: mode = "Event and thread based workers"; break; } wxLogMessage("Server mode: %s",mode); wxLogMessage("\t\t\t\tThreads\tEvents\tTotal"); wxLogMessage("Workers created:\t\t%d\t%d\t%d", m_threadWorkersCreated, m_eventWorkersCreated, m_threadWorkersCreated + m_eventWorkersCreated); wxLogMessage("Max concurrent workers:\t%d\t%d\t%d", m_maxThreadWorkers, m_maxEventWorkers, m_maxThreadWorkers + m_maxEventWorkers); wxLogMessage("Workers failed:\t\t%d\t%d\t%d", m_threadWorkersFailed, m_eventWorkersFailed, m_threadWorkersFailed + m_eventWorkersFailed); wxLogMessage("Workers done:\t\t%d\t%d\t%d", m_threadWorkersDone, m_eventWorkersDone, m_threadWorkersDone + m_eventWorkersDone); if ((int)(m_threadWorkersDone+m_eventWorkersDone) == m_maxConnections) { wxLogMessage("%ld connection(s) served, exiting",m_maxConnections); ExitMainLoop(); } } bool Server::OnCmdLineParsed(wxCmdLineParser& pParser) { if (pParser.Found("verbose")) { wxLog::AddTraceMask("wxSocket"); wxLog::AddTraceMask("epolldispatcher"); wxLog::AddTraceMask("selectdispatcher"); wxLog::AddTraceMask("thread"); wxLog::AddTraceMask("events"); wxLog::AddTraceMask("timer"); } if (pParser.Found("m",&m_maxConnections)) { wxLogMessage("%ld connection(s) to exit",m_maxConnections); } long port; if (pParser.Found("p", &port)) { if ( port <= 0 || port > USHRT_MAX ) { wxLogError("Invalid port number %ld, must be in 0..%u range.", port, USHRT_MAX); return false; } m_port = static_cast(port); wxLogMessage("Will listen on port %u", m_port); } if (pParser.Found("t")) m_workMode = THREADS; else if (pParser.Found("e")) m_workMode = EVENTS; else m_workMode = MIXED; return wxApp::OnCmdLineParsed(pParser); } bool Server::OnInit() { wxLog* logger = new wxLogStderr(); wxLog::SetActiveTarget(logger); m_port = 3000; //send interesting things to console if (!wxApp::OnInit()) return false; //setup listening socket wxIPV4address la; la.Service(m_port); m_listeningSocket = new wxSocketServer(la,wxSOCKET_NOWAIT|wxSOCKET_REUSEADDR); m_listeningSocket->SetEventHandler(*this); m_listeningSocket->SetNotify(wxSOCKET_CONNECTION_FLAG); m_listeningSocket->Notify(true); if (!m_listeningSocket->IsOk()) { wxLogError("Cannot bind listening socket"); return false; } m_threadWorkersCreated = 0; m_threadWorkersDone = 0; m_threadWorkersFailed = 0; m_maxThreadWorkers = 0; m_eventWorkersCreated = 0; m_eventWorkersDone = 0; m_eventWorkersFailed = 0; m_maxEventWorkers = 0; wxLogMessage("Server listening at port %u, waiting for connections", m_port); return true; } int Server::OnExit() { for ( TList::compatibility_iterator it = m_threadWorkers.GetFirst(); it; it = it->GetNext() ) { it->GetData()->Wait(); delete it->GetData(); } for ( EList::compatibility_iterator it2 = m_eventWorkers.GetFirst(); it2; it2->GetNext() ) { delete it2->GetData(); } m_threadWorkers.Clear(); m_eventWorkers.Clear(); m_listeningSocket->Destroy(); return 0; } void Server::OnSocketEvent(wxSocketEvent& pEvent) { switch(pEvent.GetSocketEvent()) { case wxSOCKET_INPUT: wxLogError("Unexpected wxSOCKET_INPUT in wxSocketServer"); break; case wxSOCKET_OUTPUT: wxLogError("Unexpected wxSOCKET_OUTPUT in wxSocketServer"); break; case wxSOCKET_CONNECTION: { wxSocketBase* sock = m_listeningSocket->Accept(); wxIPV4address addr; if (!sock->GetPeer(addr)) { wxLogError("Server: cannot get peer info"); } else { wxLogMessage("Got connection from %s:%d",addr.IPAddress().c_str(), addr.Service()); } bool createThread; if (m_workMode != MIXED) createThread = m_workMode == THREADS; else createThread = (wxDateTime::Now().GetSecond())%2 == 0; if (createThread) { ThreadWorker* c = new ThreadWorker(sock); if (c->Create() == wxTHREAD_NO_ERROR) { m_threadWorkers.Append(c); if (m_threadWorkers.GetCount() > m_maxThreadWorkers) m_maxThreadWorkers++; m_threadWorkersCreated++; c->Run(); } else { wxLogError("Server: cannot create next thread (current threads: %d", m_threadWorkers.size()); }; } else { EventWorker* w = new EventWorker(sock); m_eventWorkers.Append(w); if (m_eventWorkers.GetCount() > m_maxEventWorkers) m_maxEventWorkers++; m_eventWorkersCreated++; } } break; case wxSOCKET_LOST: wxLogError("Unexpected wxSOCKET_LOST in wxSocketServer"); break; } } void Server::OnWorkerEvent(WorkerEvent& pEvent) { //wxLogMessage("Got worker event"); for(TList::compatibility_iterator it = m_threadWorkers.GetFirst(); it ; it = it->GetNext()) { if (it->GetData() == pEvent.m_sender) { wxLogVerbose("Deleting thread worker (%lu left)", static_cast( m_threadWorkers.GetCount() )); it->GetData()->Wait(); delete it->GetData(); m_threadWorkers.DeleteNode(it); if (!pEvent.m_workerFailed) m_threadWorkersDone++; else m_threadWorkersFailed++; break; } } for(EList::compatibility_iterator it2 = m_eventWorkers.GetFirst(); it2 ; it2 = it2->GetNext()) { if (it2->GetData() == pEvent.m_sender) { wxLogVerbose("Deleting event worker (%lu left)", static_cast( m_eventWorkers.GetCount() )); delete it2->GetData(); m_eventWorkers.DeleteNode(it2); if (!pEvent.m_workerFailed) m_eventWorkersDone++; else m_eventWorkersFailed++; break; } } if (m_eventWorkers.GetCount() == 0 && m_threadWorkers.GetCount() == 0) { mTimer.Start(1000,true); } } void Server::OnTimerEvent(wxTimerEvent&) { DumpStatistics(); } wxBEGIN_EVENT_TABLE(Server,wxEvtHandler) EVT_SOCKET(wxID_ANY,Server::OnSocketEvent) EVT_WORKER(Server::OnWorkerEvent) EVT_TIMER(wxID_ANY,Server::OnTimerEvent) wxEND_EVENT_TABLE() ThreadWorker::ThreadWorker(wxSocketBase* pSocket) : wxThread(wxTHREAD_JOINABLE) { m_socket = pSocket; //Notify() cannot be called in thread context. We have to detach from main loop //before switching thread contexts. m_socket->Notify(false); m_socket->SetFlags(wxSOCKET_WAITALL|wxSOCKET_BLOCK); pSocket->GetPeer(m_peer); } wxThread::ExitCode ThreadWorker::Entry() { WorkerEvent e(this); if (!m_socket->IsConnected()) { LogWorker("ThreadWorker: not connected",wxLOG_Error); return 0; } int to_process = -1; if (m_socket->IsConnected()) { unsigned char signature[2]; LogWorker("ThreadWorker: reading for data"); to_process = 2; do { m_socket->Read(&signature,to_process); if (m_socket->Error()) { LogWorker("ThreadWorker: Read error",wxLOG_Error); wxGetApp().AddPendingEvent(e); return 0; } to_process -= m_socket->LastCount(); LogWorker(wxString::Format("to_process: %d",to_process)); } while (!m_socket->Error() && to_process != 0); if (signature[0] == 0) { e.m_exit = true; return 0; } if (signature[0] == 0xCE) { LogWorker("This server does not support test2 from GUI client",wxLOG_Error); e.m_workerFailed = true; e.m_exit = true; return 0; } int size = signature[1] * (signature[0] == 0xBE ? 1 : 1024); char* buf = new char[size]; LogWorker(wxString::Format("Message signature: chunks: %d, kilobytes: %d, size: %d (bytes)",signature[0],signature[1],size)); to_process = size; LogWorker(wxString::Format("ThreadWorker: reading %d bytes of data",to_process)); do { m_socket->Read(buf,to_process); if (m_socket->Error()) { LogWorker("ThreadWorker: Read error",wxLOG_Error); wxGetApp().AddPendingEvent(e); return 0; } to_process -= m_socket->LastCount(); LogWorker(wxString::Format("ThreadWorker: %d bytes readed, %d todo",m_socket->LastCount(),to_process)); } while(!m_socket->Error() && to_process != 0); to_process = size; do { m_socket->Write(buf,to_process); if (m_socket->Error()) { LogWorker("ThreadWorker: Write error",wxLOG_Error); break; } to_process -= m_socket->LastCount(); LogWorker(wxString::Format("ThreadWorker: %d bytes written, %d todo",m_socket->LastCount(),to_process)); } while(!m_socket->Error() && to_process != 0); } LogWorker("ThreadWorker: done"); e.m_workerFailed = to_process != 0; m_socket->Destroy(); wxGetApp().AddPendingEvent(e); return 0; } EventWorker::EventWorker(wxSocketBase* pSock) : m_socket(pSock), m_inbuf(NULL), m_infill(0), m_outbuf(NULL), m_outfill(0) { m_socket->SetNotify(wxSOCKET_LOST_FLAG|wxSOCKET_INPUT_FLAG|wxSOCKET_OUTPUT_FLAG); m_socket->Notify(true); m_socket->SetEventHandler(*this); m_socket->SetFlags(wxSOCKET_NOWAIT); m_socket->GetPeer(m_peer); } EventWorker::~EventWorker() { m_socket->Destroy(); delete [] m_inbuf; delete [] m_outbuf; } void EventWorker::DoRead() { if (m_inbuf == NULL) { //read message header do { m_socket->Read(m_signature + m_infill, 2 - m_infill); if (m_socket->Error()) { if (m_socket->LastError() != wxSOCKET_WOULDBLOCK) { LogWorker(wxString::Format("Read error (%d): %s",m_socket->LastError(),GetSocketErrorMsg(m_socket->LastError())),wxLOG_Error); m_socket->Close(); } } else { m_infill += m_socket->LastCount(); if (m_infill == 2) { unsigned char chunks = m_signature[1]; unsigned char type = m_signature[0]; if (type == 0xCE) { LogWorker("This server does not support test2 from GUI client",wxLOG_Error); m_written = -1; //wxSOCKET_LOST will interpret this as failure m_socket->Close(); } else if (type == 0xBE || type == 0xDE) { m_size = chunks * (type == 0xBE ? 1 : 1024); m_inbuf = new char[m_size]; m_outbuf = new char[m_size]; m_infill = 0; m_outfill = 0; m_written = 0; LogWorker(wxString::Format("Message signature: len: %d, type: %s, size: %d (bytes)",chunks,type == 0xBE ? "b" : "kB",m_size)); break; } else { LogWorker(wxString::Format("Unknown test type %x",type)); m_socket->Close(); } } } } while(!m_socket->Error() && (2 - m_infill != 0)); } if (m_inbuf == NULL) return; //read message data do { if (m_size == m_infill) { m_signature[0] = m_signature[1] = 0x0; wxDELETEA(m_inbuf); m_infill = 0; return; } m_socket->Read(m_inbuf + m_infill,m_size - m_infill); if (m_socket->Error()) { if (m_socket->LastError() != wxSOCKET_WOULDBLOCK) { LogWorker(wxString::Format("Read error (%d): %s", m_socket->LastError(), GetSocketErrorMsg(m_socket->LastError())), wxLOG_Error); m_socket->Close(); } } else { memcpy(m_outbuf+m_outfill,m_inbuf+m_infill,m_socket->LastCount()); m_infill += m_socket->LastCount(); m_outfill += m_socket->LastCount(); DoWrite(); } } while(!m_socket->Error()); }; void EventWorker::OnSocketEvent(wxSocketEvent& pEvent) { switch(pEvent.GetSocketEvent()) { case wxSOCKET_INPUT: DoRead(); break; case wxSOCKET_OUTPUT: if ( m_outbuf ) DoWrite(); break; case wxSOCKET_CONNECTION: LogWorker("Unexpected wxSOCKET_CONNECTION in EventWorker", wxLOG_Error); break; case wxSOCKET_LOST: { LogWorker("Connection lost"); WorkerEvent e(this); e.m_workerFailed = m_written != m_size; wxGetApp().AddPendingEvent(e); } break; } } void EventWorker::DoWrite() { do { if (m_written == m_size) { wxDELETEA(m_outbuf); m_outfill = 0; LogWorker( "All data written"); return; } if (m_outfill - m_written == 0) { return; } m_socket->Write(m_outbuf + m_written,m_outfill - m_written); if (m_socket->Error()) { if (m_socket->LastError() != wxSOCKET_WOULDBLOCK) { LogWorker( wxString::Format("Write error (%d): %s", m_socket->LastError(), GetSocketErrorMsg(m_socket->LastError()) ) ,wxLOG_Error ); m_socket->Close(); } else { LogWorker("Write would block, waiting for OUTPUT event"); } } else { memmove(m_outbuf,m_outbuf+m_socket->LastCount(),m_outfill-m_socket->LastCount()); m_written += m_socket->LastCount(); } LogWorker(wxString::Format("Written %d of %d bytes, todo %d", m_written, m_size, m_size - m_written)); } while (!m_socket->Error()); } wxBEGIN_EVENT_TABLE(EventWorker,wxEvtHandler) EVT_SOCKET(wxID_ANY,EventWorker::OnSocketEvent) wxEND_EVENT_TABLE()