void KVINDRAOnlineDataAnalyser::ecouteSockets(void* arg)
{
// static method, lance dans un thread
// listen to the sockets
TThread::Printf("<KVINDRAOnlineDataAnalyser::ecouteSockets> : beginning thread");
KVINDRAOnlineDataAnalyser* ANA = (KVINDRAOnlineDataAnalyser*)arg;
TServerSocket* fServer = new TServerSocket(ANA->port, kTRUE);
if (!fServer->IsValid()) TThread::Printf("<KVINDRAOnlineDataAnalyser::ecouteSockets> : Port %d not valid", ANA->port);
TMonitor* fMonitor = new TMonitor;
fMonitor->Add(fServer);
while (1) {
TSocket* ss = fMonitor->Select();
if (ss <= (TSocket*)0) continue;
if (ss->IsA() == TServerSocket::Class()) {
// new connection ?
TSocket* s0 = fServer->Accept();
if (s0) {
TThread::Printf("<KVINDRAOnlineDataAnalyser::ecouteSockets> : Client found at %s",
s0->GetInetAddress().GetHostName());
fMonitor->Add(s0);
}
continue;
}
if (ss->IsA() != TSocket::Class()) continue;
TMessage* mess;
if (ss->Recv(mess) <= 0) {
// socket has been closed (?)
TThread::Printf("<KVINDRAOnlineDataAnalyser::ecouteSockets> : connection from %s has been closed", ss->GetInetAddress().GetHostName());
fMonitor->Remove(ss);
delete ss;
continue;
}
if (mess->What() == kMESS_STRING) {
// deal with commands
char str[256];
mess->ReadString(str, 256);
TThread::Printf("<KVINDRAOnlineDataAnalyser::ecouteSockets> : Received: %s", str);
TString command(str);
//command.ToUpper();
ANA->HandleCommands(command, ss);
}/* else if (mess->What() == kMESS_OBJECT) {
TThread::Printf("<KVINDRAOnlineDataAnalyser::ecouteSockets> : Received UN P***IN d'OBJET!!!");
} else {
TThread::Printf("<KVINDRAOnlineDataAnalyser::ecouteSockets> : *** Unexpected message ***");
}*/
delete mess;
}
}
void fastMergeServer(bool cache = false) {
// This script shows how to make a simple iterative server that
// can receive TMemFile from multiple clients and merge them into
// a single file without block.
//
// Note: This server assumes that the client will reset the histogram
// after each upload to simplify the merging.
//
// This server can accept connections while handling currently open connections.
// Compare this script to hserv.C that blocks on accept.
// In this script a server socket is created and added to a monitor.
// A monitor object is used to monitor connection requests on
// the server socket. After accepting the connection
// the new socket is added to the monitor and immediately ready
// for use. Once two connections are accepted the server socket
// is removed from the monitor and closed. The monitor continues
// monitoring the sockets.
//
// To run this demo do the following:
// - Open three windows
// - Start ROOT in all three windows
// - Execute in the first window: .x fastMergerServer.C
// - Execute in the second and third windows: .x treeClient.C
//Author: Fons Rademakers
// Open a server socket looking for connections on a named service or
// on a specified port.
//TServerSocket *ss = new TServerSocket("rootserv", kTRUE);
TServerSocket *ss = new TServerSocket(9090, kTRUE);
if (!ss->IsValid()) {
return;
}
TMonitor *mon = new TMonitor;
mon->Add(ss);
UInt_t clientCount = 0;
TMemFile *transient = 0;
TFileMerger merger(kFALSE,kFALSE);
merger.SetPrintLevel(0);
enum StatusKind {
kStartConnection = 0,
kProtocol = 1,
kProtocolVersion = 1
};
if (cache) new TFileCacheWrite(merger.GetOutputFile(),32*1024*1024);
while (1) {
TMessage *mess;
TSocket *s;
s = mon->Select();
if (s->IsA() == TServerSocket::Class()) {
if (clientCount > 100) {
printf("only accept 100 clients connections\n");
mon->Remove(ss);
ss->Close();
} else {
TSocket *client = ((TServerSocket *)s)->Accept();
client->Send(clientCount, kStartConnection);
client->Send(kProtocolVersion, kProtocol);
++clientCount;
mon->Add(client);
printf("Accept %d connections\n",clientCount);
}
continue;
}
s->Recv(mess);
if (mess==0) {
Error("fastMergeServer","The client did not send a message\n");
} else if (mess->What() == kMESS_STRING) {
char str[64];
mess->ReadString(str, 64);
printf("Client %d: %s\n", clientCount, str);
mon->Remove(s);
printf("Client %d: bytes recv = %d, bytes sent = %d\n", clientCount, s->GetBytesRecv(),
s->GetBytesSent());
s->Close();
--clientCount;
if (mon->GetActive() == 0 || clientCount == 0) {
printf("No more active clients... stopping\n");
break;
}
} else if (mess->What() == kMESS_ANY) {
Long64_t length;
TString filename;
Int_t clientId;
mess->ReadInt(clientId);
mess->ReadTString(filename);
mess->ReadLong64(length); // '*mess >> length;' is broken in CINT for Long64_t.
Info("fastMergeServer","Receive input from client %d for %s",clientId,filename.Data());
delete transient;
transient = new TMemFile(filename,mess->Buffer() + mess->Length(),length);
mess->SetBufferOffset(mess->Length()+length);
merger.OutputFile(filename,"UPDATE");
merger.AddAdoptFile(transient);
merger.PartialMerge(TFileMerger::kAllIncremental);
transient = 0;
} else if (mess->What() == kMESS_OBJECT) {
printf("got object of class: %s\n", mess->GetClass()->GetName());
} else {
printf("*** Unexpected message ***\n");
}
delete mess;
}
}
void ConnectToServer(const TInetAddress *hostb, Int_t port)
{
// Called by the Bonjour resolver with the host and port to which
// we can connect.
// Connect only once...
TBonjourResolver *resolver = (TBonjourResolver*) gTQSender;
TInetAddress host = *hostb;
delete resolver;
printf("ConnectToServer: host = %s, port = %d\n", host.GetHostName(), port);
//--- Here starts original hclient.C code ---
// Open connection to server
TSocket *sock = new TSocket(host.GetHostName(), port);
// Wait till we get the start message
char str[32];
sock->Recv(str, 32);
// server tells us who we are
int idx = !strcmp(str, "go 0") ? 0 : 1;
Float_t messlen = 0;
Float_t cmesslen = 0;
if (idx == 1)
sock->SetCompressionLevel(1);
TH1 *hpx;
if (idx == 0) {
// Create the histogram
hpx = new TH1F("hpx","This is the px distribution",100,-4,4);
hpx->SetFillColor(48); // set nice fillcolor
} else {
hpx = new TH2F("hpxpy","py vs px",40,-4,4,40,-4,4);
}
TMessage::EnableSchemaEvolutionForAll(gEvo);
TMessage mess(kMESS_OBJECT);
//TMessage mess(kMESS_OBJECT | kMESS_ACK);
// Fill histogram randomly
gRandom->SetSeed();
Float_t px, py;
const int kUPDATE = 1000;
for (int i = 0; i < 25000; i++) {
gRandom->Rannor(px,py);
if (idx == 0)
hpx->Fill(px);
else
hpx->Fill(px,py);
if (i && (i%kUPDATE) == 0) {
mess.Reset(); // re-use TMessage object
mess.WriteObject(hpx); // write object in message buffer
sock->Send(mess); // send message
messlen += mess.Length();
cmesslen += mess.CompLength();
}
}
sock->Send("Finished"); // tell server we are finished
if (cmesslen > 0)
printf("Average compression ratio: %g\n", messlen/cmesslen);
gBenchmark->Show("hclient");
// Close the socket
sock->Close();
}
void hserv() {
// Open a server socket looking for connections on a named service or
// on a specified port.
//TServerSocket *ss = new TServerSocket("rootserv", kTRUE);
TServerSocket *ss = new TServerSocket(9090, kTRUE);
// Accept a connection and return a full-duplex communication socket.
TSocket *s0 = ss->Accept();
TSocket *s1 = ss->Accept();
// tell the clients to start
s0->Send("go 0");
s1->Send("go 1");
// Close the server socket (unless we will use it later to wait for
// another connection).
ss->Close();
// Check some options of socket 0.
int val;
s0->GetOption(kSendBuffer, val);
printf("sendbuffer size: %d\n", val);
s0->GetOption(kRecvBuffer, val);
printf("recvbuffer size: %d\n", val);
// Get the remote addresses (informational only).
TInetAddress adr = s0->GetInetAddress();
adr.Print();
adr = s1->GetInetAddress();
adr.Print();
// Create canvas and pads to display the histograms
TCanvas *c1 = new TCanvas("c1","The Ntuple canvas",200,10,700,780);
TPad *pad1 = new TPad("pad1","This is pad1",0.02,0.52,0.98,0.98,21);
TPad *pad2 = new TPad("pad2","This is pad2",0.02,0.02,0.98,0.48,21);
pad1->Draw();
pad2->Draw();
TMonitor *mon = new TMonitor;
mon->Add(s0);
mon->Add(s1);
while (1) {
TMessage *mess;
TSocket *s;
s = mon->Select();
s->Recv(mess);
if (mess->What() == kMESS_STRING) {
char str[64];
mess->ReadString(str, 64);
printf("Client %d: %s\n", s==s0 ? 0 : 1, str);
mon->Remove(s);
if (mon->GetActive() == 0) {
printf("No more active clients... stopping\n");
break;
}
} else if (mess->What() == kMESS_OBJECT) {
//printf("got object of class: %s\n", mess->GetClass()->GetName());
TH1 *h = (TH1 *)mess->ReadObject(mess->GetClass());
if (h) {
if (s == s0)
pad1->cd();
else
pad2->cd();
h->Print();
h->DrawCopy(); //draw a copy of the histogram, not the histo itself
c1->Modified();
c1->Update();
delete h; // delete histogram
}
} else {
printf("*** Unexpected message ***\n");
}
delete mess;
}
printf("Client 0: bytes recv = %d, bytes sent = %d\n", s0->GetBytesRecv(),
s0->GetBytesSent());
printf("Client 1: bytes recv = %d, bytes sent = %d\n", s1->GetBytesRecv(),
s1->GetBytesSent());
// Close the socket.
s0->Close();
s1->Close();
}
void treeClient(Bool_t evol=kFALSE)
{
// Client program which creates and fills 2 histograms and a TTree.
// Every 1000000 fills the histograms and TTree is send to the server which displays the histogram.
//
// To run this demo do the following:
// - Open at least 2 windows
// - Start ROOT in the first windows
// - Execute in the first window: .x fastMergeServer.C
// - Execute in the other windows: root.exe -b -l -q .x treeClient.C
// (You can put it in the background if wanted).
// If you want to run the hserv.C on a different host, just change
// "localhost" in the TSocket ctor below to the desired hostname.
//
//Author: Fons Rademakers, Philippe Canal
gBenchmark->Start("treeClient");
// Open connection to server
TSocket *sock = new TSocket("localhost", 9090);
if (!sock->IsValid()) {
Error("treeClient","Could not establish a connection with the server %s:%d.","localhost",9090);
return;
}
// Wait till we get the start message
// server tells us who we are
Int_t status, version, kind;
sock->Recv(status, kind);
if (kind != 0 /* kStartConnection */)
{
Error("treeClient","Unexpected server message: kind=%d status=%d\n",kind,status);
delete sock;
return;
}
sock->Recv(version, kind);
if (kind != 1 /* kStartConnection */)
{
Fatal("treeClient","Unexpected server message: kind=%d status=%d\n",kind,status);
} else {
Info("treeClient","Connected to fastMergeServer version %d\n",version);
}
int idx = status;
Float_t messlen = 0;
Float_t cmesslen = 0;
TMemFile *file = new TMemFile("mergedClient.root","RECREATE");
TH1 *hpx;
if (idx == 0) {
// Create the histogram
hpx = new TH1F("hpx","This is the px distribution",100,-4,4);
hpx->SetFillColor(48); // set nice fillcolor
} else {
hpx = new TH2F("hpxpy","py vs px",40,-4,4,40,-4,4);
}
Float_t px, py;
TTree *tree = new TTree("tree","tree");
tree->SetAutoFlush(4000000);
tree->Branch("px",&px);
tree->Branch("py",&py);
TMessage::EnableSchemaEvolutionForAll(evol);
TMessage mess(kMESS_OBJECT);
// Fill histogram randomly
gRandom->SetSeed();
const int kUPDATE = 1000000;
for (int i = 0; i < 25000000; ) {
gRandom->Rannor(px,py);
if (idx%2 == 0)
hpx->Fill(px);
else
hpx->Fill(px,py);
tree->Fill();
++i;
if (i && (i%kUPDATE) == 0) {
file->Write();
mess.Reset(kMESS_ANY); // re-use TMessage object
mess.WriteInt(idx);
mess.WriteTString(file->GetName());
mess.WriteLong64(file->GetEND()); // 'mess << file->GetEND();' is broken in CINT for Long64_t
file->CopyTo(mess);
sock->Send(mess); // send message
messlen += mess.Length();
cmesslen += mess.CompLength();
file->ResetAfterMerge(0); // This resets only the TTree objects.
hpx->Reset();
}
}
sock->Send("Finished"); // tell server we are finished
if (cmesslen > 0)
printf("Average compression ratio: %g\n", messlen/cmesslen);
gBenchmark->Show("hclient");
// Close the socket
sock->Close();
}