wxWidgets/samples/sockets/baseserver.cpp
Vadim Zeitlin 526954c596 Globally use "wxWindows licence" consistently.
Use "wxWindows licence" and not "wxWidgets licence" (the latter doesn't
exist) and consistently spell "licence" using British spelling.

See #12165.

git-svn-id: https://svn.wxwidgets.org/svn/wx/wxWidgets/trunk@64940 c3d73ce0-8a6f-49c7-b76d-6d57e0e08775
2010-07-13 13:29:13 +00:00

757 lines
21 KiB
C++

/////////////////////////////////////////////////////////////////////////////
// Name: samples/sockbase/client.cpp
// Purpose: Sockets sample for wxBase
// Author: Lukasz Michalski
// Modified by:
// Created: 27.06.2005
// RCS-ID: $Id$
// Copyright: (c) 2005 Lukasz Michalski <lmichalski@user.sourceforge.net>
// 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
{
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
{
DECLARE_EVENT_TABLE()
public:
Server() : m_maxConnections(-1) {}
~Server() {}
private:
enum WorkMode
{
MIXED,
THREADS,
EVENTS
};
virtual bool OnInit();
virtual int OnExit();
void OnInitCmdLine(wxCmdLineParser& pParser);
bool OnCmdLineParsed(wxCmdLineParser& pParser);
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;
long m_port;
wxTimer mTimer;
};
DECLARE_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();
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();
DECLARE_EVENT_TABLE()
};
/******************* Implementation ******************/
IMPLEMENT_APP_CONSOLE(Server)
#include <wx/listimpl.cpp>
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 <n> 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("%d 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("%d connection(s) to exit",m_maxConnections);
}
if (pParser.Found("p",&m_port))
{
wxLogMessage("%d connection(s) to exit",m_maxConnections);
}
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->Ok())
{
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 %d, 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 (%d left)",
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 (%d left)",
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();
}
BEGIN_EVENT_TABLE(Server,wxEvtHandler)
EVT_SOCKET(wxID_ANY,Server::OnSocketEvent)
EVT_WORKER(Server::OnWorkerEvent)
EVT_TIMER(wxID_ANY,Server::OnTimerEvent)
END_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_socket->LastCount(),m_size,m_size - m_written));
}
while (!m_socket->Error());
}
BEGIN_EVENT_TABLE(EventWorker,wxEvtHandler)
EVT_SOCKET(wxID_ANY,EventWorker::OnSocketEvent)
END_EVENT_TABLE()