// @(#)root/proof:$Id: a2a50e759072c37ccbc65ecbcce735a76de86e95 $
// Author: Fons Rademakers   13/02/97

/*************************************************************************
 * Copyright (C) 1995-2000, Rene Brun and Fons Rademakers.               *
 * All rights reserved.                                                  *
 *                                                                       *
 * For the licensing terms see $ROOTSYS/LICENSE.                         *
 * For the list of contributors see $ROOTSYS/README/CREDITS.             *
 *************************************************************************/

//////////////////////////////////////////////////////////////////////////
//                                                                      //
// TProof                                                               //
//                                                                      //
// This class controls a Parallel ROOT Facility, PROOF, cluster.        //
// It fires the worker servers, it keeps track of how many workers are  //
// running, it keeps track of the workers running status, it broadcasts //
// messages to all workers, it collects results, etc.                   //
//                                                                      //
//////////////////////////////////////////////////////////////////////////

#include <stdlib.h>
#include <fcntl.h>
#include <errno.h>
#ifdef WIN32
#   include <io.h>
#   include <sys/stat.h>
#   include <sys/types.h>
#   include "snprintf.h"
#else
#   include <unistd.h>
#endif
#include <vector>

#include "RConfigure.h"
#include "Riostream.h"
#include "Getline.h"
#include "TBrowser.h"
#include "TChain.h"
#include "TCondor.h"
#include "TDSet.h"
#include "TError.h"
#include "TEnv.h"
#include "TEntryList.h"
#include "TEventList.h"
#include "TFile.h"
#include "TFileInfo.h"
#include "TFunction.h"
#include "TFTP.h"
#include "THashList.h"
#include "TInterpreter.h"
#include "TKey.h"
#include "TMap.h"
#include "TMath.h"
#include "TMessage.h"
#include "TMethodArg.h"
#include "TMethodCall.h"
#include "TMonitor.h"
#include "TMutex.h"
#include "TObjArray.h"
#include "TObjString.h"
#include "TParameter.h"
#include "TProof.h"
#include "TProofNodeInfo.h"
#include "TProofOutputFile.h"
#include "TVirtualProofPlayer.h"
#include "TVirtualPacketizer.h"
#include "TProofServ.h"
#include "TPluginManager.h"
#include "TQueryResult.h"
#include "TRandom.h"
#include "TRegexp.h"
#include "TROOT.h"
#include "TSemaphore.h"
#include "TSlave.h"
#include "TSocket.h"
#include "TSortedList.h"
#include "TSystem.h"
#include "TThread.h"
#include "TTree.h"
#include "TUrl.h"
#include "TFileCollection.h"
#include "TDataSetManager.h"
#include "TDataSetManagerFile.h"
#include "TMacro.h"
#include "TSelector.h"
#include "TPRegexp.h"

TProof *gProof = 0;
TVirtualMutex *gProofMutex = 0;

// Rotating indicator
char TProofMergePrg::fgCr[4] = {'-', '\\', '|', '/'};

TList   *TProof::fgProofEnvList = 0;          // List of env vars for proofserv
TPluginHandler *TProof::fgLogViewer = 0;      // Log viewer handler

ClassImp(TProof)

//----- PROOF Interrupt signal handler -----------------------------------------
//______________________________________________________________________________
Bool_t TProofInterruptHandler::Notify()
{
   // TProof interrupt handler.

   if (!fProof->IsTty() || fProof->GetRemoteProtocol() < 22) {

      // Cannot ask the user : abort any remote processing
      fProof->StopProcess(kTRUE);

   } else {
      // Real stop or request to switch to asynchronous?
      const char *a = 0;
      if (fProof->GetRemoteProtocol() < 22) {
         a = Getline("\nSwitch to asynchronous mode not supported remotely:"
                     "\nEnter S/s to stop, Q/q to quit, any other key to continue: ");
      } else {
         a = Getline("\nEnter A/a to switch asynchronous, S/s to stop, Q/q to quit,"
                     " any other key to continue: ");
      }
      if (a[0] == 'Q' || a[0] == 'S' || a[0] == 'q' || a[0] == 's') {

         Info("Notify","Processing interrupt signal ... %c", a[0]);

         // Stop or abort any remote processing
         Bool_t abort = (a[0] == 'Q' || a[0] == 'q') ? kTRUE : kFALSE;
         fProof->StopProcess(abort);

      } else if ((a[0] == 'A' || a[0] == 'a') && fProof->GetRemoteProtocol() >= 22) {
         // Stop any remote processing
         fProof->GoAsynchronous();
      }
   }

   return kTRUE;
}

//----- Input handler for messages from TProofServ -----------------------------
//______________________________________________________________________________
TProofInputHandler::TProofInputHandler(TProof *p, TSocket *s)
                   : TFileHandler(s->GetDescriptor(),1),
                     fSocket(s), fProof(p)
{
   // Constructor
}

//______________________________________________________________________________
Bool_t TProofInputHandler::Notify()
{
   // Handle input

   fProof->CollectInputFrom(fSocket);
   return kTRUE;
}


//------------------------------------------------------------------------------

ClassImp(TSlaveInfo)

//______________________________________________________________________________
Int_t TSlaveInfo::Compare(const TObject *obj) const
{
   // Used to sort slaveinfos by ordinal.

   if (!obj) return 1;

   const TSlaveInfo *si = dynamic_cast<const TSlaveInfo*>(obj);

   if (!si) return fOrdinal.CompareTo(obj->GetName());

   const char *myord = GetOrdinal();
   const char *otherord = si->GetOrdinal();
   while (myord && otherord) {
      Int_t myval = atoi(myord);
      Int_t otherval = atoi(otherord);
      if (myval < otherval) return 1;
      if (myval > otherval) return -1;
      myord = strchr(myord, '.');
      if (myord) myord++;
      otherord = strchr(otherord, '.');
      if (otherord) otherord++;
   }
   if (myord) return -1;
   if (otherord) return 1;
   return 0;
}

//______________________________________________________________________________
Bool_t TSlaveInfo::IsEqual(const TObject* obj) const
{
   // Used to compare slaveinfos by ordinal.

   if (!obj) return kFALSE;
   const TSlaveInfo *si = dynamic_cast<const TSlaveInfo*>(obj);
   if (!si) return kFALSE;
   return (strcmp(GetOrdinal(), si->GetOrdinal()) == 0);
}

//______________________________________________________________________________
void TSlaveInfo::Print(Option_t *opt) const
{
   // Print slave info. If opt = "active" print only the active
   // slaves, if opt="notactive" print only the not active slaves,
   // if opt = "bad" print only the bad slaves, else
   // print all slaves.

   TString stat = fStatus == kActive ? "active" :
                  fStatus == kBad ? "bad" :
                  "not active";

   Bool_t newfmt = kFALSE;
   TString oo(opt);
   if (oo.Contains("N")) {
      newfmt = kTRUE;
      oo.ReplaceAll("N","");
   }
   if (oo == "active" && fStatus != kActive) return;
   if (oo == "notactive" && fStatus != kNotActive) return;
   if (oo == "bad" && fStatus != kBad) return;

   if (newfmt) {
      TString msd, si, datadir;
      if (!(fMsd.IsNull())) msd.Form("| msd: %s ", fMsd.Data());
      if (!(fDataDir.IsNull())) datadir.Form("| datadir: %s ", fDataDir.Data());
      if (fSysInfo.fCpus > 0) {
         si.Form("| %s, %d cores, %d MB ram", fHostName.Data(),
               fSysInfo.fCpus, fSysInfo.fPhysRam);
      } else {
         si.Form("| %s", fHostName.Data());
      }
      Printf("Worker: %9s %s %s%s| %s", fOrdinal.Data(), si.Data(), msd.Data(), datadir.Data(), stat.Data());

   } else {
      TString msd  = fMsd.IsNull() ? "<null>" : fMsd.Data();

      std::cout << "Slave: "          << fOrdinal
         << "  hostname: "     << fHostName
         << "  msd: "          << msd
         << "  perf index: "   << fPerfIndex
         << "  "               << stat
         << std::endl;
   }
}

//______________________________________________________________________________
void TSlaveInfo::SetSysInfo(SysInfo_t si)
{
   // Setter for fSysInfo

   fSysInfo.fOS       = si.fOS;          // OS
   fSysInfo.fModel    = si.fModel;       // computer model
   fSysInfo.fCpuType  = si.fCpuType;     // type of cpu
   fSysInfo.fCpus     = si.fCpus;        // number of cpus
   fSysInfo.fCpuSpeed = si.fCpuSpeed;    // cpu speed in MHz
   fSysInfo.fBusSpeed = si.fBusSpeed;    // bus speed in MHz
   fSysInfo.fL2Cache  = si.fL2Cache;     // level 2 cache size in KB
   fSysInfo.fPhysRam  = si.fPhysRam;     // Physical RAM
}

ClassImp(TProof)

TSemaphore    *TProof::fgSemaphore = 0;

//------------------------------------------------------------------------------

//______________________________________________________________________________
TMergerInfo::~TMergerInfo()
{
   // Destructor

   // Just delete the list, the objects are owned by other list
   if (fWorkers) {
      fWorkers->SetOwner(kFALSE);
      SafeDelete(fWorkers);
   }
}
//______________________________________________________________________________
void TMergerInfo::SetMergedWorker()
{
   // Increase number of already merged workers by 1

   if (AreAllWorkersMerged())
      Error("SetMergedWorker", "all workers have been already merged before!");
   else
      fMergedWorkers++;
}

//______________________________________________________________________________
void TMergerInfo::AddWorker(TSlave *sl)
{
   // Add new worker to the list of workers to be merged by this merger

   if (!fWorkers)
      fWorkers = new TList();
   if (fWorkersToMerge == fWorkers->GetSize()) {
      Error("AddWorker", "all workers have been already assigned to this merger");
      return;
   }
   fWorkers->Add(sl);
}

//______________________________________________________________________________
Bool_t TMergerInfo::AreAllWorkersMerged()
{
   // Return if merger has already merged all workers, i.e. if it has finished its merging job

   return (fWorkersToMerge == fMergedWorkers);
}

//______________________________________________________________________________
Bool_t TMergerInfo::AreAllWorkersAssigned()
{
      // Return if the determined number of workers has been already assigned to this merger

      if (!fWorkers)
         return kFALSE;

      return (fWorkers->GetSize() == fWorkersToMerge);
}

//______________________________________________________________________________
static Int_t PoDCheckUrl(TString *_cluster)
{
   // This a private API function.
   // It checks whether the connection string contains a PoD cluster protocol.
   // If it does, then the connection string will be changed to reflect
   // a real PROOF connection string for a PROOF cluster managed by PoD.
   // PoD: http://pod.gsi.de .
   // Return -1 if the PoD request failed; return 0 otherwise.

   if ( !_cluster )
      return 0;

   // trim spaces from both sides of the string
   *_cluster = _cluster->Strip( TString::kBoth );
   // PoD protocol string
   const TString pod_prot("pod");

   // URL test
   // TODO: The URL test is to support remote PoD servers (not managed by pod-remote)
   TUrl url( _cluster->Data() );
   if( pod_prot.CompareTo(url.GetProtocol(), TString::kIgnoreCase) )
      return 0;

   // PoD cluster is used
   // call pod-info in a batch mode (-b).
   // pod-info will find either a local PoD cluster or
   // a remote one, manged by pod-remote.
   *_cluster = gSystem->GetFromPipe("pod-info -c -b");
   if( 0 == _cluster->Length() ) {
      Error("PoDCheckUrl", "PoD server is not running");
      return -1;
   }
   return 0;
}

//------------------------------------------------------------------------------
TProof::TProof(const char *masterurl, const char *conffile, const char *confdir,
               Int_t loglevel, const char *alias, TProofMgr *mgr)
       : fUrl(masterurl)
{
   // Create a PROOF environment. Starting PROOF involves either connecting
   // to a master server, which in turn will start a set of slave servers, or
   // directly starting as master server (if master = ""). Masterurl is of
   // the form: [proof[s]://]host[:port]. Conffile is the name of the config
   // file describing the remote PROOF cluster (this argument alows you to
   // describe different cluster configurations).
   // The default is proof.conf. Confdir is the directory where the config
   // file and other PROOF related files are (like motd and noproof files).
   // Loglevel is the log level (default = 1). User specified custom config
   // files will be first looked for in $HOME/.conffile.

   // Default initializations
   InitMembers();

   // This may be needed during init
   fManager = mgr;

   // Default server type
   fServType = TProofMgr::kXProofd;

   // Default query mode
   fQueryMode = kSync;

   // Parse the main URL, adjusting the missing fields and setting the relevant
   // bits
   ResetBit(TProof::kIsClient);
   ResetBit(TProof::kIsMaster);

   // Protocol and Host
   if (!masterurl || strlen(masterurl) <= 0) {
      fUrl.SetProtocol("proof");
      fUrl.SetHost("__master__");
   } else if (!(strstr(masterurl, "://"))) {
      fUrl.SetProtocol("proof");
   }
   // Port
   if (fUrl.GetPort() == TUrl(" ").GetPort())
      fUrl.SetPort(TUrl("proof:// ").GetPort());

   // Make sure to store the FQDN, so to get a solid reference for subsequent checks
   if (!strcmp(fUrl.GetHost(), "__master__"))
      fMaster = fUrl.GetHost();
   else if (!strlen(fUrl.GetHost()))
      fMaster = gSystem->GetHostByName(gSystem->HostName()).GetHostName();
   else
      fMaster = gSystem->GetHostByName(fUrl.GetHost()).GetHostName();

   // Server type
   if (strlen(fUrl.GetOptions()) > 0) {
      TString opts(fUrl.GetOptions());
      if (!(strncmp(fUrl.GetOptions(),"std",3))) {
         fServType = TProofMgr::kProofd;
         opts.Remove(0,3);
         fUrl.SetOptions(opts.Data());
      } else if (!(strncmp(fUrl.GetOptions(),"lite",4))) {
         fServType = TProofMgr::kProofLite;
         opts.Remove(0,4);
         fUrl.SetOptions(opts.Data());
      }
   }

   // Instance type
   fMasterServ = kFALSE;
   SetBit(TProof::kIsClient);
   ResetBit(TProof::kIsMaster);
   if (fMaster == "__master__") {
      fMasterServ = kTRUE;
      ResetBit(TProof::kIsClient);
      SetBit(TProof::kIsMaster);
   } else if (fMaster == "prooflite") {
      // Client and master are merged
      fMasterServ = kTRUE;
      SetBit(TProof::kIsMaster);
   }
   // Flag that we are a client
   if (TestBit(TProof::kIsClient))
      if (!gSystem->Getenv("ROOTPROOFCLIENT")) gSystem->Setenv("ROOTPROOFCLIENT","");

   Init(masterurl, conffile, confdir, loglevel, alias);

   // If the user was not set, get it from the master
   if (strlen(fUrl.GetUser()) <= 0) {
      TString usr, emsg;
      if (Exec("gProofServ->GetUser()", "0", kTRUE) == 0) {
         TObjString *os = fMacroLog.GetLineWith("const char");
         if (os) {
            Ssiz_t fst =  os->GetString().First('\"');
            Ssiz_t lst =  os->GetString().Last('\"');
            usr = os->GetString()(fst+1, lst-fst-1);
         } else {
            emsg = "could not find 'const char *' string in macro log";
         }
      } else {
         emsg = "could not retrieve user info";
      }
      if (!emsg.IsNull()) {
         // Get user logon name
         UserGroup_t *pw = gSystem->GetUserInfo();
         if (pw) {
            usr = pw->fUser;
            delete pw;
         }
         Warning("TProof", "%s: using local default %s", emsg.Data(), usr.Data());
      }
      // Set the user name in the main URL
      fUrl.SetUser(usr.Data());
   }

   // If called by a manager, make sure it stays in last position
   // for cleaning
   if (mgr) {
      R__LOCKGUARD2(gROOTMutex);
      gROOT->GetListOfSockets()->Remove(mgr);
      gROOT->GetListOfSockets()->Add(mgr);
   }

   // Old-style server type: we add this to the list and set the global pointer
   if (IsProofd() || TestBit(TProof::kIsMaster))
      if (!gROOT->GetListOfProofs()->FindObject(this))
         gROOT->GetListOfProofs()->Add(this);

   // Still needed by the packetizers: needs to be changed
   gProof = this;
}

//______________________________________________________________________________
TProof::TProof() : fUrl(""), fServType(TProofMgr::kXProofd)
{
   // Protected constructor to be used by classes deriving from TProof
   // (they have to call Init themselves and override StartSlaves
   // appropriately).
   //
   // This constructor simply closes any previous gProof and sets gProof
   // to this instance.

   // Default initializations
   InitMembers();

   if (!gROOT->GetListOfProofs()->FindObject(this))
      gROOT->GetListOfProofs()->Add(this);

   gProof = this;
}

//______________________________________________________________________________
void TProof::InitMembers()
{
   // Default initializations

   fValid = kFALSE;
   fTty = kFALSE;
   fRecvMessages = 0;
   fSlaveInfo = 0;
   fMasterServ = kFALSE;
   fSendGroupView = kFALSE;
   fIsPollingWorkers = kFALSE;
   fLastPollWorkers_s = -1;
   fActiveSlaves = 0;
   fInactiveSlaves = 0;
   fUniqueSlaves = 0;
   fAllUniqueSlaves = 0;
   fNonUniqueMasters = 0;
   fActiveMonitor = 0;
   fUniqueMonitor = 0;
   fAllUniqueMonitor = 0;
   fCurrentMonitor = 0;
   fBytesRead = 0;
   fRealTime = 0;
   fCpuTime = 0;
   fIntHandler = 0;
   fProgressDialog = 0;
   fProgressDialogStarted = kFALSE;
   SetBit(kUseProgressDialog);
   fPlayer = 0;
   fFeedback = 0;
   fChains = 0;
   fDSet = 0;
   fNotIdle = 0;
   fSync = kTRUE;
   fRunStatus = kRunning;
   fIsWaiting = kFALSE;
   fRedirLog = kFALSE;
   fLogFileW = 0;
   fLogFileR = 0;
   fLogToWindowOnly = kFALSE;
   fSaveLogToMacro = kFALSE;
   fMacroLog.SetName("ProofLogMacro");

   fWaitingSlaves = 0;
   fQueries = 0;
   fOtherQueries = 0;
   fDrawQueries = 0;
   fMaxDrawQueries = 1;
   fSeqNum = 0;

   fSessionID = -1;
   fEndMaster = kFALSE;

   fGlobalPackageDirList = 0;
   fPackageLock = 0;
   fEnabledPackagesOnClient = 0;
   fEnabledPackagesOnCluster = 0;

   fInputData = 0;

   fPrintProgress = 0;

   fLoadedMacros = 0;

   fProtocol = -1;
   fSlaves = 0;
   fTerminatedSlaveInfos = 0;
   fBadSlaves = 0;
   fAllMonitor = 0;
   fDataReady = kFALSE;
   fBytesReady = 0;
   fTotalBytes = 0;
   fAvailablePackages = 0;
   fEnabledPackages = 0;
   fRunningDSets = 0;

   fCollectTimeout = -1;

   fManager = 0;
   fQueryMode = kSync;
   fDynamicStartup = kFALSE;

   fCloseMutex = 0;

   fMergersSet = kFALSE;
   fMergersByHost = kFALSE;
   fMergers = 0;
   fMergersCount = -1;
   fLastAssignedMerger = 0;
   fWorkersToMerge = 0;
   fFinalizationRunning = kFALSE;

   fPerfTree = "";

   fWrksOutputReady = 0;

   fSelector = 0;

   fPrepTime = 0.;

   // Check if the user defined a list of environment variables to send over:
   // include them into the dedicated list
   if (gSystem->Getenv("PROOF_ENVVARS")) {
      TString envs(gSystem->Getenv("PROOF_ENVVARS")), env, envsfound;
      Int_t from = 0;
      while (envs.Tokenize(env, from, ",")) {
         if (!env.IsNull()) {
            if (!gSystem->Getenv(env)) {
               Warning("Init", "request for sending over undefined environemnt variable '%s' - ignoring", env.Data());
            } else {
               if (!envsfound.IsNull()) envsfound += ",";
               envsfound += env;
               TProof::DelEnvVar(env);
               TProof::AddEnvVar(env, gSystem->Getenv(env));
            }
         }
      }
      if (envsfound.IsNull()) {
         Warning("Init", "none of the requested env variables were found: '%s'", envs.Data());
      } else {
         Info("Init", "the following environment variables have been added to the list to be sent to the nodes: '%s'", envsfound.Data());
      }
   }

   // Done
   return;
}

//______________________________________________________________________________
TProof::~TProof()
{
   // Clean up PROOF environment.

   if (fChains) {
      while (TChain *chain = dynamic_cast<TChain*> (fChains->First()) ) {
         // remove "chain" from list
         chain->SetProof(0);
         RemoveChain(chain);
      }
   }

   // remove links to packages enabled on the client
   if (TestBit(TProof::kIsClient)) {
      // iterate over all packages
      TIter nextpackage(fEnabledPackagesOnClient);
      while (TObjString *package = dynamic_cast<TObjString*>(nextpackage())) {
         FileStat_t stat;
         if (gSystem->GetPathInfo(package->String(), stat) == 0) {
            // check if symlink, if so unlink
            // NOTE: GetPathInfo() returns 1 in case of symlink that does not point to
            // existing file or to a directory, but if fIsLink is true the symlink exists
            if (stat.fIsLink)
               gSystem->Unlink(package->String());
         }
      }
   }

   Close();
   SafeDelete(fIntHandler);
   SafeDelete(fSlaves);
   SafeDelete(fActiveSlaves);
   SafeDelete(fInactiveSlaves);
   SafeDelete(fUniqueSlaves);
   SafeDelete(fAllUniqueSlaves);
   SafeDelete(fNonUniqueMasters);
   SafeDelete(fTerminatedSlaveInfos);
   SafeDelete(fBadSlaves);
   SafeDelete(fAllMonitor);
   SafeDelete(fActiveMonitor);
   SafeDelete(fUniqueMonitor);
   SafeDelete(fAllUniqueMonitor);
   SafeDelete(fSlaveInfo);
   SafeDelete(fChains);
   SafeDelete(fPlayer);
   SafeDelete(fFeedback);
   SafeDelete(fWaitingSlaves);
   SafeDelete(fAvailablePackages);
   SafeDelete(fEnabledPackages);
   SafeDelete(fEnabledPackagesOnClient);
   SafeDelete(fLoadedMacros);
   SafeDelete(fPackageLock);
   SafeDelete(fGlobalPackageDirList);
   SafeDelete(fRecvMessages);
   SafeDelete(fInputData);
   SafeDelete(fRunningDSets);
   SafeDelete(fCloseMutex);
   if (fWrksOutputReady) {
      fWrksOutputReady->SetOwner(kFALSE);
      delete fWrksOutputReady;
   }

   // remove file with redirected logs
   if (TestBit(TProof::kIsClient)) {
      if (fLogFileR)
         fclose(fLogFileR);
      if (fLogFileW)
         fclose(fLogFileW);
      if (fLogFileName.Length() > 0)
         gSystem->Unlink(fLogFileName);
   }

   // Remove for the global list
   gROOT->GetListOfProofs()->Remove(this);
   // ... and from the manager list
   if (fManager && fManager->IsValid())
      fManager->DiscardSession(this);

   if (gProof && gProof == this) {
      // Set previous as default
      TIter pvp(gROOT->GetListOfProofs(), kIterBackward);
      while ((gProof = (TProof *)pvp())) {
         if (gProof->InheritsFrom(TProof::Class()))
            break;
      }
   }

   // For those interested in our destruction ...
   Emit("~TProof()");
   Emit("CloseWindow()");
}

//______________________________________________________________________________
Int_t TProof::Init(const char *, const char *conffile,
                   const char *confdir, Int_t loglevel, const char *alias)
{
   // Start the PROOF environment. Starting PROOF involves either connecting
   // to a master server, which in turn will start a set of slave servers, or
   // directly starting as master server (if master = ""). For a description
   // of the arguments see the TProof ctor. Returns the number of started
   // master or slave servers, returns 0 in case of error, in which case
   // fValid remains false.

   R__ASSERT(gSystem);

   fValid = kFALSE;

   // Connected to terminal?
   fTty = (isatty(0) == 0 || isatty(1) == 0) ? kFALSE : kTRUE;

   // If in attach mode, options is filled with additional info
   Bool_t attach = kFALSE;
   if (strlen(fUrl.GetOptions()) > 0) {
      attach = kTRUE;
      // A flag from the GUI
      TString opts = fUrl.GetOptions();
      if (opts.Contains("GUI")) {
         SetBit(TProof::kUsingSessionGui);
         opts.Remove(opts.Index("GUI"));
         fUrl.SetOptions(opts);
      }
   }

   if (TestBit(TProof::kIsMaster)) {
      // Fill default conf file and conf dir
      if (!conffile || !conffile[0])
         fConfFile = kPROOF_ConfFile;
      if (!confdir  || !confdir[0])
         fConfDir  = kPROOF_ConfDir;
      // The group; the client receives it in the kPROOF_SESSIONTAG message
      if (gProofServ) fGroup = gProofServ->GetGroup();
   } else {
      fConfDir     = confdir;
      fConfFile    = conffile;
   }

   // Analysise the conffile field
   if (fConfFile.Contains("workers=0")) fConfFile.ReplaceAll("workers=0", "masteronly");
   ParseConfigField(fConfFile);

   fWorkDir        = gSystem->WorkingDirectory();
   fLogLevel       = loglevel;
   fProtocol       = kPROOF_Protocol;
   fSendGroupView  = kTRUE;
   fImage          = fMasterServ ? "" : "<local>";
   fIntHandler     = 0;
   fStatus         = 0;
   fRecvMessages   = new TList;
   fRecvMessages->SetOwner(kTRUE);
   fSlaveInfo      = 0;
   fChains         = new TList;
   fAvailablePackages = 0;
   fEnabledPackages = 0;
   fRunningDSets   = 0;
   fEndMaster      = TestBit(TProof::kIsMaster) ? kTRUE : kFALSE;
   fInputData      = 0;
   ResetBit(TProof::kNewInputData);
   fPrintProgress  = 0;

   fEnabledPackagesOnCluster = new TList;
   fEnabledPackagesOnCluster->SetOwner();

   // Timeout for some collect actions
   fCollectTimeout = gEnv->GetValue("Proof.CollectTimeout", -1);

   // Should the workers be started dynamically; default: no
   fDynamicStartup = gEnv->GetValue("Proof.DynamicStartup", kFALSE);

   // Default entry point for the data pool is the master
   if (TestBit(TProof::kIsClient))
      fDataPoolUrl.Form("root://%s", fMaster.Data());
   else
      fDataPoolUrl = "";

   fProgressDialog        = 0;
   fProgressDialogStarted = kFALSE;

   // Default alias is the master name
   TString      al = (alias) ? alias : fMaster.Data();
   SetAlias(al);

   // Client logging of messages from the master and slaves
   fRedirLog = kFALSE;
   if (TestBit(TProof::kIsClient)) {
      fLogFileName.Form("%s/ProofLog_%d", gSystem->TempDirectory(), gSystem->GetPid());
      if ((fLogFileW = fopen(fLogFileName, "w")) == 0)
         Error("Init", "could not create temporary logfile");
      if ((fLogFileR = fopen(fLogFileName, "r")) == 0)
         Error("Init", "could not open temp logfile for reading");
   }
   fLogToWindowOnly = kFALSE;

   // Status of cluster
   fNotIdle = 0;
   // Query type
   fSync = (attach) ? kFALSE : kTRUE;
   // Not enqueued
   fIsWaiting = kFALSE;

   // Counters
   fBytesRead = 0;
   fRealTime = 0;
   fCpuTime = 0;

   // List of queries
   fQueries = 0;
   fOtherQueries = 0;
   fDrawQueries = 0;
   fMaxDrawQueries = 1;
   fSeqNum = 0;

   // Remote ID of the session
   fSessionID = -1;

   // Part of active query
   fWaitingSlaves = 0;

   // Make remote PROOF player
   fPlayer = 0;
   MakePlayer();

   fFeedback = new TList;
   fFeedback->SetOwner();
   fFeedback->SetName("FeedbackList");
   AddInput(fFeedback);

   // sort slaves by descending performance index
   fSlaves           = new TSortedList(kSortDescending);
   fActiveSlaves     = new TList;
   fInactiveSlaves   = new TList;
   fUniqueSlaves     = new TList;
   fAllUniqueSlaves  = new TList;
   fNonUniqueMasters = new TList;
   fBadSlaves        = new TList;
   fAllMonitor       = new TMonitor;
   fActiveMonitor    = new TMonitor;
   fUniqueMonitor    = new TMonitor;
   fAllUniqueMonitor = new TMonitor;
   fCurrentMonitor   = 0;

   fTerminatedSlaveInfos = new TList;
   fTerminatedSlaveInfos->SetOwner(kTRUE);

   fPackageLock             = 0;
   fEnabledPackagesOnClient = 0;
   fLoadedMacros            = 0;
   fGlobalPackageDirList    = 0;

   // Enable optimized sending of streamer infos to use embedded backward/forward
   // compatibility support between different ROOT versions and different versions of
   // users classes
   Bool_t enableSchemaEvolution = gEnv->GetValue("Proof.SchemaEvolution",1);
   if (enableSchemaEvolution) {
      TMessage::EnableSchemaEvolutionForAll();
   } else {
      Info("TProof", "automatic schema evolution in TMessage explicitly disabled");
   }

   if (IsMaster()) {
      // to make UploadPackage() method work on the master as well.
      fPackageDir = gProofServ->GetPackageDir();
   } else {

      TString sandbox;
      if (GetSandbox(sandbox, kTRUE) != 0) {
         Error("Init", "failure asserting sandbox directory %s", sandbox.Data());
         return 0;
      }

      // Package Dir
      fPackageDir = gEnv->GetValue("Proof.PackageDir", "");
      if (fPackageDir.IsNull())
         fPackageDir.Form("%s/%s", sandbox.Data(), kPROOF_PackDir);
      if (AssertPath(fPackageDir, kTRUE) != 0) {
         Error("Init", "failure asserting directory %s", fPackageDir.Data());
         return 0;
      }
   }

   if (!IsMaster()) {
      // List of directories where to look for global packages
      TString globpack = gEnv->GetValue("Proof.GlobalPackageDirs","");
      if (globpack.Length() > 0) {
         Int_t ng = 0;
         Int_t from = 0;
         TString ldir;
         while (globpack.Tokenize(ldir, from, ":")) {
            TProofServ::ResolveKeywords(ldir);
            if (gSystem->AccessPathName(ldir, kReadPermission)) {
               Warning("Init", "directory for global packages %s does not"
                               " exist or is not readable", ldir.Data());
            } else {
               // Add to the list, key will be "G<ng>", i.e. "G0", "G1", ...
               TString key = TString::Format("G%d", ng++);
               if (!fGlobalPackageDirList) {
                  fGlobalPackageDirList = new THashList();
                  fGlobalPackageDirList->SetOwner();
               }
               fGlobalPackageDirList->Add(new TNamed(key,ldir));
            }
         }
      }

      TString lockpath(fPackageDir);
      lockpath.ReplaceAll("/", "%");
      lockpath.Insert(0, TString::Format("%s/%s",
                         gSystem->TempDirectory(), kPROOF_PackageLockFile));
      fPackageLock = new TProofLockPath(lockpath.Data());

      fEnabledPackagesOnClient = new TList;
      fEnabledPackagesOnClient->SetOwner();
   }

   // Master may want dynamic startup
   if (fDynamicStartup) {
      if (!IsMaster()) {
         // If on client - start the master
         if (!StartSlaves(attach))
            return 0;
      }
   } else {

      // Master Only mode (for operations requiring only the master, e.g. dataset browsing,
      // result retrieving, ...)
      Bool_t masterOnly = gEnv->GetValue("Proof.MasterOnly", kFALSE);
      if (!IsMaster() || !masterOnly) {
         // Start slaves (the old, static, per-session way)
         if (!StartSlaves(attach))
            return 0;
         // Client: Is Master in dynamic startup mode?
         if (!IsMaster()) {
            Int_t dyn;
            GetRC("Proof.DynamicStartup", dyn);
            if (dyn != 0) fDynamicStartup = kTRUE;
         }
      }
   }

   if (fgSemaphore)
      SafeDelete(fgSemaphore);

   // we are now properly initialized
   fValid = kTRUE;

   // De-activate monitor (will be activated in Collect)
   fAllMonitor->DeActivateAll();

   // By default go into parallel mode
   Int_t nwrk = GetRemoteProtocol() > 35 ? -1 : 9999;
   TNamed *n = 0;
   if (TProof::GetEnvVars() &&
      (n = (TNamed *) TProof::GetEnvVars()->FindObject("PROOF_NWORKERS"))) {
      TString s(n->GetTitle());
      if (s.IsDigit()) nwrk = s.Atoi();
   }
   GoParallel(nwrk, attach);

   // Send relevant initial state to slaves
   if (!attach)
      SendInitialState();
   else if (!IsIdle())
      // redirect log
      fRedirLog = kTRUE;

   // Done at this point, the alias will be communicated to the coordinator, if any
   if (TestBit(TProof::kIsClient))
      SetAlias(al);

   SetActive(kFALSE);

   if (IsValid()) {

      // Activate input handler
      ActivateAsyncInput();

      R__LOCKGUARD2(gROOTMutex);
      gROOT->GetListOfSockets()->Add(this);
   }

   AskParallel();

   return fActiveSlaves->GetSize();
}

//______________________________________________________________________________
Int_t TProof::GetSandbox(TString &sb, Bool_t assert, const char *rc)
{
   // Set the sandbox path from ' Proof.Sandbox' or the alternative var 'rc'.
   // Use the existing setting or the default if nothing is found.
   // If 'assert' is kTRUE, make also sure that the path exists.
   // Return 0 on success, -1 on failure

   // Get it from 'rc', if defined
   if (rc && strlen(rc)) sb = gEnv->GetValue(rc, sb);
   // Or use the default 'rc'
   if (sb.IsNull()) sb = gEnv->GetValue("Proof.Sandbox", "");
   // If nothing found , use the default
   if (sb.IsNull()) sb.Form("~/%s", kPROOF_WorkDir);
   // Expand special settings
   if (sb == ".") {
      sb = gSystem->pwd();
   } else if (sb == "..") {
      sb = gSystem->DirName(gSystem->pwd());
   }
   gSystem->ExpandPathName(sb);

   // Assert the path, if required
   if (assert && AssertPath(sb, kTRUE) != 0) return -1;
   // Done
   return 0;
}

//______________________________________________________________________________
void TProof::ParseConfigField(const char *config)
{
   // The config file field may contain special instructions which need to be
   // parsed at the beginning, e.g. for debug runs with valgrind.
   // Several options can be given separated by a ','

   TString sconf(config), opt;
   Ssiz_t from = 0;
   Bool_t cpuPin = kFALSE;

   // Analysise the field
   const char *cq = (IsLite()) ? "\"" : "";
   while (sconf.Tokenize(opt, from, ",")) {
      if (opt.IsNull()) continue;

      if (opt.BeginsWith("valgrind")) {
         // Any existing valgrind setting? User can give full settings, which we fully respect,
         // or pass additional options for valgrind by prefixing 'valgrind_opts:'. For example,
         //    TProof::AddEnvVar("PROOF_MASTER_WRAPPERCMD", "valgrind_opts:--time-stamp --leak-check=full"
         // will add option "--time-stamp --leak-check=full" to our default options
         TString mst, top, sub, wrk, all;
         TList *envs = fgProofEnvList;
         TNamed *n = 0;
         if (envs) {
            if ((n = (TNamed *) envs->FindObject("PROOF_WRAPPERCMD")))
               all = n->GetTitle();
            if ((n = (TNamed *) envs->FindObject("PROOF_MASTER_WRAPPERCMD")))
               mst = n->GetTitle();
            if ((n = (TNamed *) envs->FindObject("PROOF_TOPMASTER_WRAPPERCMD")))
               top = n->GetTitle();
            if ((n = (TNamed *) envs->FindObject("PROOF_SUBMASTER_WRAPPERCMD")))
               sub = n->GetTitle();
            if ((n = (TNamed *) envs->FindObject("PROOF_SLAVE_WRAPPERCMD")))
               wrk = n->GetTitle();
         }
         if (all != "" && mst == "") mst = all;
         if (all != "" && top == "") top = all;
         if (all != "" && sub == "") sub = all;
         if (all != "" && wrk == "") wrk = all;
         if (all != "" && all.BeginsWith("valgrind_opts:")) {
            // The field is used to add an option Reset the setting
            Info("ParseConfigField","valgrind run: resetting 'PROOF_WRAPPERCMD':"
                                    " must be set again for next run , if any");
            TProof::DelEnvVar("PROOF_WRAPPERCMD");
         }
         TString var, cmd;
         cmd.Form("%svalgrind -v --suppressions=<rootsys>/etc/valgrind-root.supp", cq);
         TString mstlab("NO"), wrklab("NO");
         Bool_t doMaster = (opt == "valgrind" || (opt.Contains("master") &&
                           !opt.Contains("topmaster") && !opt.Contains("submaster")))
                         ? kTRUE : kFALSE;
         if (doMaster) {
            if (!IsLite()) {
               // Check if we have to add a var
               if (mst == "" || mst.BeginsWith("valgrind_opts:")) {
                  mst.ReplaceAll("valgrind_opts:","");
                  var.Form("%s --log-file=<logfilemst>.valgrind.log %s", cmd.Data(), mst.Data());
                  TProof::AddEnvVar("PROOF_MASTER_WRAPPERCMD", var);
                  mstlab = "YES";
               } else if (mst != "") {
                  mstlab = "YES";
               }
            } else {
               if (opt.Contains("master")) {
                  Warning("ParseConfigField",
                        "master valgrinding does not make sense for PROOF-Lite: ignoring");
                  opt.ReplaceAll("master", "");
                  if (!opt.Contains("workers")) return;
               }
               if (opt == "valgrind" || opt == "valgrind=") opt = "valgrind=workers";
            }
         }
         if (opt.Contains("topmaster")) {
            // Check if we have to add a var
            if (top == "" || top.BeginsWith("valgrind_opts:")) {
               top.ReplaceAll("valgrind_opts:","");
               var.Form("%s --log-file=<logfilemst>.valgrind.log %s", cmd.Data(), top.Data());
               TProof::AddEnvVar("PROOF_TOPMASTER_WRAPPERCMD", var);
               mstlab = "YES";
            } else if (top != "") {
               mstlab = "YES";
            }
         }
         if (opt.Contains("submaster")) {
            // Check if we have to add a var
            if (sub == "" || sub.BeginsWith("valgrind_opts:")) {
               sub.ReplaceAll("valgrind_opts:","");
               var.Form("%s --log-file=<logfilemst>.valgrind.log %s", cmd.Data(), sub.Data());
               TProof::AddEnvVar("PROOF_SUBMASTER_WRAPPERCMD", var);
               mstlab = "YES";
            } else if (sub != "") {
               mstlab = "YES";
            }
         }
         if (opt.Contains("=workers") || opt.Contains("+workers")) {
            // Check if we have to add a var
            if (wrk == "" || wrk.BeginsWith("valgrind_opts:")) {
               wrk.ReplaceAll("valgrind_opts:","");
               var.Form("%s --log-file=<logfilewrk>.__valgrind__.log %s%s", cmd.Data(), wrk.Data(), cq);
               TProof::AddEnvVar("PROOF_SLAVE_WRAPPERCMD", var);
               TString nwrks("2");
               Int_t inw = opt.Index('#');
               if (inw != kNPOS) {
                  nwrks = opt(inw+1, opt.Length());
                  if (!nwrks.IsDigit()) nwrks = "2";
               }
               // Set the relevant variables
               if (!IsLite()) {
                  TProof::AddEnvVar("PROOF_NWORKERS", nwrks);
               } else {
                  gEnv->SetValue("ProofLite.Workers", nwrks.Atoi());
               }
               wrklab = nwrks;
               // Register the additional worker log in the session file
               // (for the master this is done automatically)
               TProof::AddEnvVar("PROOF_ADDITIONALLOG", "__valgrind__.log*");
            } else if (wrk != "") {
               wrklab = "ALL";
            }
         }
         // Increase the relevant timeouts
         if (!IsLite()) {
            TProof::AddEnvVar("PROOF_INTWAIT", "5000");
            gEnv->SetValue("Proof.SocketActivityTimeout", 6000);
         } else {
            gEnv->SetValue("ProofLite.StartupTimeOut", 5000);
         }
         // Warn for slowness
         Printf(" ");
         if (!IsLite()) {
            Printf(" ---> Starting a debug run with valgrind (master:%s, workers:%s)", mstlab.Data(), wrklab.Data());
         } else {
            Printf(" ---> Starting a debug run with valgrind (workers:%s)", wrklab.Data());
         }
         Printf(" ---> Please be patient: startup may be VERY slow ...");
         Printf(" ---> Logs will be available as special tags in the log window (from the progress dialog or TProof::LogViewer()) ");
         Printf(" ---> (Reminder: this debug run makes sense only if you are running a debug version of ROOT)");
         Printf(" ");

      } else if (opt.BeginsWith("igprof-pp")) {

         // IgProf profiling on master and worker. PROOF does not set the
         // environment for you: proper environment variables (like PATH and
         // LD_LIBRARY_PATH) should be set externally

         Printf("*** Requested IgProf performance profiling ***");
         TString addLogExt = "__igprof.pp__.log";
         TString addLogFmt = "igprof -pk -pp -t proofserv.exe -o %s.%s";
         TString tmp;

         if (IsLite()) {
            addLogFmt.Append("\"");
            addLogFmt.Prepend("\"");
         }

         tmp.Form(addLogFmt.Data(), "<logfilemst>", addLogExt.Data());
         TProof::AddEnvVar("PROOF_MASTER_WRAPPERCMD",  tmp.Data());

         tmp.Form(addLogFmt.Data(), "<logfilewrk>", addLogExt.Data());
         TProof::AddEnvVar("PROOF_SLAVE_WRAPPERCMD", tmp.Data() );

         TProof::AddEnvVar("PROOF_ADDITIONALLOG", addLogExt.Data());

      } else if (opt.BeginsWith("cpupin=")) {
         // Enable CPU pinning. Takes as argument the list of processor IDs
         // that will be used in order. Processor IDs are numbered from 0,
         // use likwid to see how they are organized. A possible parameter
         // format would be:
         //
         //   cpupin=3+4+0+9+10+22+7
         //
         // Only the specified processor IDs will be used in a round-robin
         // fashion, dealing with the fact that you can request more workers
         // than the number of processor IDs you have specified.
         //
         // To use all available processors in their order:
         //
         //   cpupin=*

         opt.Remove(0, 7);

         // Remove any char which is neither a number nor a plus '+'
         for (Ssiz_t i=0; i<opt.Length(); i++) {
            Char_t c = opt[i];
            if ((c != '+') && ((c < '0') || (c > '9')))
               opt[i] = '_';
         }
         opt.ReplaceAll("_", "");
         TProof::AddEnvVar("PROOF_SLAVE_CPUPIN_ORDER", opt);
         cpuPin = kTRUE;
      } else if (opt.BeginsWith("workers=")) {

         // Request for a given number of workers (within the max) or worker
         // startup combination:
         //      workers=5         start max 5 workers (or less, if less are assigned)
         //      workers=2x        start max 2 workers per node (or less, if less are assigned)
         opt.ReplaceAll("workers=","");
         TProof::AddEnvVar("PROOF_NWORKERS", opt);
      }
   }

   // In case of PROOF-Lite, enable CPU pinning when requested (Linux only)
   #ifdef R__LINUX
   if (IsLite() && cpuPin) {
      Printf("*** Requested CPU pinning ***");
      const TList *ev = GetEnvVars();
      const char *pinCmd = "taskset -c <cpupin>";
      TString val;
      TNamed *p;
      if (ev && (p = dynamic_cast<TNamed *>(ev->FindObject("PROOF_SLAVE_WRAPPERCMD")))) {
         val = p->GetTitle();
         val.Insert(val.Length()-1, " ");
         val.Insert(val.Length()-1, pinCmd);
      }
      else {
         val.Form("\"%s\"", pinCmd);
      }
      TProof::AddEnvVar("PROOF_SLAVE_WRAPPERCMD", val.Data());
   }
   #endif
}

//______________________________________________________________________________
Int_t TProof::AssertPath(const char *inpath, Bool_t writable)
{
   // Make sure that 'path' exists; if 'writable' is kTRUE, make also sure
   // that the path is writable

   if (!inpath || strlen(inpath) <= 0) {
      Error("AssertPath", "undefined input path");
      return -1;
   }

   TString path(inpath);
   gSystem->ExpandPathName(path);

   if (gSystem->AccessPathName(path, kFileExists)) {
      if (gSystem->mkdir(path, kTRUE) != 0) {
         Error("AssertPath", "could not create path %s", path.Data());
         return -1;
      }
   }
   // It must be writable
   if (gSystem->AccessPathName(path, kWritePermission) && writable) {
      if (gSystem->Chmod(path, 0666) != 0) {
         Error("AssertPath", "could not make path %s writable", path.Data());
         return -1;
      }
   }

   // Done
   return 0;
}

//______________________________________________________________________________
void TProof::SetManager(TProofMgr *mgr)
{
   // Set manager and schedule its destruction after this for clean
   // operations.

   fManager = mgr;

   if (mgr) {
      R__LOCKGUARD2(gROOTMutex);
      gROOT->GetListOfSockets()->Remove(mgr);
      gROOT->GetListOfSockets()->Add(mgr);
   }
}

//______________________________________________________________________________
Int_t TProof::AddWorkers(TList *workerList)
{
   // Works on the master node only.
   // It starts workers on the machines in workerList and sets the paths,
   // packages and macros as on the master.
   // It is a subbstitute for StartSlaves(...)
   // The code is mostly the master part of StartSlaves,
   // with the parallel startup removed.

   if (!IsMaster()) {
      Error("AddWorkers", "AddWorkers can only be called on the master!");
      return -1;
   }

   if (!workerList || !(workerList->GetSize())) {
      Error("AddWorkers", "empty list of workers!");
      return -2;
   }

   // Code taken from master part of StartSlaves with the parllel part removed

   fImage = gProofServ->GetImage();
   if (fImage.IsNull())
      fImage.Form("%s:%s", TUrl(gSystem->HostName()).GetHostFQDN(), gProofServ->GetWorkDir());

   // Get all workers
   UInt_t nSlaves = workerList->GetSize();
   UInt_t nSlavesDone = 0;
   Int_t ord = 0;

   // Loop over all new workers and start them (if we had already workers it means we are
   // increasing parallelism or that is not the first time we are called)
   Bool_t goMoreParallel = (fSlaves->GetEntries() > 0) ? kTRUE : kFALSE;

   // A list of TSlave objects for workers that are being added
   TList *addedWorkers = new TList();
   if (!addedWorkers) {
      // This is needed to silence Coverity ...
      Error("AddWorkers", "cannot create new list for the workers to be added");
      return -2;
   }
   addedWorkers->SetOwner(kFALSE);
   TListIter next(workerList);
   TObject *to;
   TProofNodeInfo *worker;
   TSlaveInfo *dummysi = new TSlaveInfo();
   while ((to = next())) {
      // Get the next worker from the list
      worker = (TProofNodeInfo *)to;

      // Read back worker node info
      const Char_t *image = worker->GetImage().Data();
      const Char_t *workdir = worker->GetWorkDir().Data();
      Int_t perfidx = worker->GetPerfIndex();
      Int_t sport = worker->GetPort();
      if (sport == -1)
         sport = fUrl.GetPort();

      // Create worker server
      TString fullord;
      if (worker->GetOrdinal().Length() > 0) {
         fullord.Form("%s.%s", gProofServ->GetOrdinal(), worker->GetOrdinal().Data());
      } else {
         fullord.Form("%s.%d", gProofServ->GetOrdinal(), ord);
      }

      // Remove worker from the list of workers terminated gracefully
      dummysi->SetOrdinal(fullord);
      TSlaveInfo *rmsi = (TSlaveInfo *)fTerminatedSlaveInfos->Remove(dummysi);
      if (rmsi) SafeDelete(rmsi);

      // Create worker server
      TString wn(worker->GetNodeName());
      if (wn == "localhost" || wn.BeginsWith("localhost.")) wn = gSystem->HostName();
      TUrl u(TString::Format("%s:%d", wn.Data(), sport));
      // Add group info in the password firdl, if any
      if (strlen(gProofServ->GetGroup()) > 0) {
         // Set also the user, otherwise the password is not exported
         if (strlen(u.GetUser()) <= 0)
            u.SetUser(gProofServ->GetUser());
         u.SetPasswd(gProofServ->GetGroup());
      }
      TSlave *slave = 0;
      if (worker->IsWorker()) {
         slave = CreateSlave(u.GetUrl(), fullord, perfidx, image, workdir);
      } else {
         slave = CreateSubmaster(u.GetUrl(), fullord,
                                 image, worker->GetMsd(), worker->GetNWrks());
      }

      // Add to global list (we will add to the monitor list after
      // finalizing the server startup)
      Bool_t slaveOk = kTRUE;
      fSlaves->Add(slave);
      if (slave->IsValid()) {
         addedWorkers->Add(slave);
      } else {
         slaveOk = kFALSE;
         fBadSlaves->Add(slave);
         Warning("AddWorkers", "worker '%s' is invalid", slave->GetOrdinal());
      }

      PDB(kGlobal,3)
         Info("AddWorkers", "worker on host %s created"
              " and added to list (ord: %s)", worker->GetName(), slave->GetOrdinal());

      // Notify opening of connection
      nSlavesDone++;
      TMessage m(kPROOF_SERVERSTARTED);
      m << TString("Opening connections to workers") << nSlaves
        << nSlavesDone << slaveOk;
      gProofServ->GetSocket()->Send(m);

      ord++;
   } //end of the worker loop
   SafeDelete(dummysi);

   // Cleanup
   SafeDelete(workerList);

   nSlavesDone = 0;

   // Here we finalize the server startup: in this way the bulk
   // of remote operations are almost parallelized
   TIter nxsl(addedWorkers);
   TSlave *sl = 0;
   while ((sl = (TSlave *) nxsl())) {

      // Finalize setup of the server
      if (sl->IsValid())
          sl->SetupServ(TSlave::kSlave, 0);

      // Monitor good slaves
      Bool_t slaveOk = kTRUE;
      if (sl->IsValid()) {
         fAllMonitor->Add(sl->GetSocket());
      PDB(kGlobal,3)
         Info("AddWorkers", "worker on host %s finalized"
              " and added to list", sl->GetOrdinal());
      } else {
         slaveOk = kFALSE;
         fBadSlaves->Add(sl);
      }

      // Notify end of startup operations
      nSlavesDone++;
      TMessage m(kPROOF_SERVERSTARTED);
      m << TString("Setting up worker servers") << nSlaves
        << nSlavesDone << slaveOk;
      gProofServ->GetSocket()->Send(m);
   }

   // Now set new state on the added workers (on all workers for simplicity)
   // use fEnabledPackages, fLoadedMacros,
   // gSystem->GetDynamicPath() and gSystem->GetIncludePath()
   // no need to load packages that are only loaded and not enabled (dyn mode)
   Int_t nwrk = GetRemoteProtocol() > 35 ? -1 : 9999;
   TNamed *n = 0;
   if (TProof::GetEnvVars() &&
      (n = (TNamed *) TProof::GetEnvVars()->FindObject("PROOF_NWORKERS"))) {
      TString s(n->GetTitle());
      if (s.IsDigit()) nwrk = s.Atoi();
   }

   if (fDynamicStartup && goMoreParallel) {

      PDB(kGlobal, 3)
         Info("AddWorkers", "will invoke GoMoreParallel()");
      Int_t nw = GoMoreParallel(nwrk);
      PDB(kGlobal, 3)
         Info("AddWorkers", "GoMoreParallel()=%d", nw);

   }
   else {
      // Not in Dynamic Workers mode
      PDB(kGlobal, 3)
         Info("AddWorkers", "will invoke GoParallel()");
      GoParallel(nwrk, kFALSE, 0);
   }

   // Set worker processing environment
   SetupWorkersEnv(addedWorkers, goMoreParallel);

   // Update list of current workers
   PDB(kGlobal, 3)
      Info("AddWorkers", "will invoke SaveWorkerInfo()");
   SaveWorkerInfo();

   // Inform the client that the number of workers has changed
   if (fDynamicStartup && gProofServ) {
      PDB(kGlobal, 3)
         Info("AddWorkers", "will invoke SendParallel()");
      gProofServ->SendParallel(kTRUE);

      if (goMoreParallel && fPlayer) {
         // In case we are adding workers dynamically to an existing process, we
         // should invoke a special player's Process() to set only added workers
         // to the proper state
         PDB(kGlobal, 3)
            Info("AddWorkers", "will send the PROCESS message to selected workers");
         fPlayer->JoinProcess(addedWorkers);
         // Update merger counters (new workers are not yet active)
         fMergePrg.SetNWrks(fActiveSlaves->GetSize() + addedWorkers->GetSize());
      }
   }

   // Cleanup
   delete addedWorkers;

   return 0;
}

//______________________________________________________________________________
void TProof::SetupWorkersEnv(TList *addedWorkers, Bool_t increasingWorkers)
{
   // Set up packages, loaded macros, include and lib paths ...

   // Packages
   TList *packs = gProofServ ? gProofServ->GetEnabledPackages() : GetEnabledPackages();
   if (packs->GetSize() > 0) {
      TIter nxp(packs);      
      TPair *pck = 0;
      while ((pck = (TPair *) nxp())) {
         // Upload and Enable methods are intelligent and avoid
         // re-uploading or re-enabling of a package to a node that has it.
         if (fDynamicStartup && increasingWorkers) {
            // Upload only on added workers
            PDB(kGlobal, 3)
               Info("SetupWorkersEnv", "will invoke UploadPackage() and EnablePackage() on added workers");
            if (UploadPackage(pck->GetName(), kUntar, addedWorkers) >= 0)
               EnablePackage(pck->GetName(), (TList *) pck->Value(), kTRUE, addedWorkers);
         } else {
            PDB(kGlobal, 3)
               Info("SetupWorkersEnv", "will invoke UploadPackage() and EnablePackage() on all workers");
            if (UploadPackage(pck->GetName()) >= 0)
               EnablePackage(pck->GetName(), (TList *) pck->Value(), kTRUE);
         }
      }
   }

   // Loaded macros
   if (fLoadedMacros) {
      TIter nxp(fLoadedMacros);
      TObjString *os = 0;
      while ((os = (TObjString *) nxp())) {
         PDB(kGlobal, 3) {
            Info("SetupWorkersEnv", "will invoke Load() on selected workers");
            Printf("Loading a macro : %s", os->GetName());
         }
         Load(os->GetName(), kTRUE, kTRUE, addedWorkers);
      }
   }

   // Dynamic path
   TString dyn = gSystem->GetDynamicPath();
   dyn.ReplaceAll(":", " ");
   dyn.ReplaceAll("\"", " ");
   PDB(kGlobal, 3)
      Info("SetupWorkersEnv", "will invoke AddDynamicPath() on selected workers");
   AddDynamicPath(dyn, kFALSE, addedWorkers, kFALSE); // Do not Collect

   // Include path
   TString inc = gSystem->GetIncludePath();
   inc.ReplaceAll("-I", " ");
   inc.ReplaceAll("\"", " ");
   PDB(kGlobal, 3)
      Info("SetupWorkersEnv", "will invoke AddIncludePath() on selected workers");
   AddIncludePath(inc, kFALSE, addedWorkers, kFALSE);  // Do not Collect

   // Done
   return;
}

//______________________________________________________________________________
Int_t TProof::RemoveWorkers(TList *workerList)
{
   // Used for shuting down the workres after a query is finished.
   // Sends each of the workers from the workerList, a kPROOF_STOP message.
   // If the workerList == 0, shutdown all the workers.

   if (!IsMaster()) {
      Error("RemoveWorkers", "RemoveWorkers can only be called on the master!");
      return -1;
   }

   fFileMap.clear(); // This could be avoided if CopyFromCache was used in SendFile

   if (!workerList) {
      // shutdown all the workers
      TIter nxsl(fSlaves);
      TSlave *sl = 0;
      while ((sl = (TSlave *) nxsl())) {
         // Shut down the worker assumig that it is not processing
         TerminateWorker(sl);
      }

   } else {
      if (!(workerList->GetSize())) {
         Error("RemoveWorkers", "The list of workers should not be empty!");
         return -2;
      }

      // Loop over all the workers and stop them
      TListIter next(workerList);
      TObject *to;
      TProofNodeInfo *worker;
      while ((to = next())) {
         TSlave *sl = 0;
         if (!strcmp(to->ClassName(), "TProofNodeInfo")) {
            // Get the next worker from the list
            worker = (TProofNodeInfo *)to;
            TIter nxsl(fSlaves);
            while ((sl = (TSlave *) nxsl())) {
               // Shut down the worker assumig that it is not processing
               if (sl->GetName() == worker->GetNodeName())
                  break;
            }
         } else if (to->InheritsFrom(TSlave::Class())) {
            sl = (TSlave *) to;
         } else {
            Warning("RemoveWorkers","unknown object type: %s - it should be"
                  " TProofNodeInfo or inheriting from TSlave", to->ClassName());
         }
         // Shut down the worker assumig that it is not processing
         if (sl) {
            if (gDebug > 0)
               Info("RemoveWorkers","terminating worker %s", sl->GetOrdinal());
            TerminateWorker(sl);
         }
      }
   }

   // Update also the master counter
   if (gProofServ && fSlaves->GetSize() <= 0) gProofServ->ReleaseWorker("master");

   return 0;
}

//______________________________________________________________________________
Bool_t TProof::StartSlaves(Bool_t attach)
{
   // Start up PROOF slaves.

   // If this is a master server, find the config file and start slave
   // servers as specified in the config file
   if (TestBit(TProof::kIsMaster)) {

      Int_t pc = 0;
      TList *workerList = new TList;
      // Get list of workers
      if (gProofServ->GetWorkers(workerList, pc) == TProofServ::kQueryStop) {
         TString emsg("no resource currently available for this session: please retry later");
         if (gDebug > 0) Info("StartSlaves", "%s", emsg.Data());
         gProofServ->SendAsynMessage(emsg.Data());
         return kFALSE;
      }
      // Setup the workers
      if (AddWorkers(workerList) < 0)
         return kFALSE;

   } else {

      // create master server
      Printf("Starting master: opening connection ...");
      TSlave *slave = CreateSubmaster(fUrl.GetUrl(), "0", "master", 0);

      if (slave->IsValid()) {

         // Notify
         fprintf(stderr,"Starting master:"
                        " connection open: setting up server ...             \r");
         StartupMessage("Connection to master opened", kTRUE, 1, 1);

         if (!attach) {

            // Set worker interrupt handler
            slave->SetInterruptHandler(kTRUE);

            // Finalize setup of the server
            slave->SetupServ(TSlave::kMaster, fConfFile);

            if (slave->IsValid()) {

               // Notify
               Printf("Starting master: OK                                     ");
               StartupMessage("Master started", kTRUE, 1, 1);

               // check protocol compatibility
               // protocol 1 is not supported anymore
               if (fProtocol == 1) {
                  Error("StartSlaves",
                        "client and remote protocols not compatible (%d and %d)",
                        kPROOF_Protocol, fProtocol);
                  slave->Close("S");
                  delete slave;
                  return kFALSE;
               }

               fSlaves->Add(slave);
               fAllMonitor->Add(slave->GetSocket());

               // Unset worker interrupt handler
               slave->SetInterruptHandler(kFALSE);

               // Set interrupt PROOF handler from now on
               fIntHandler = new TProofInterruptHandler(this);

               // Give-up after 5 minutes
               Int_t rc = Collect(slave, 300);
               Int_t slStatus = slave->GetStatus();
               if (slStatus == -99 || slStatus == -98 || rc == 0) {
                  fSlaves->Remove(slave);
                  fAllMonitor->Remove(slave->GetSocket());
                  if (slStatus == -99)
                     Error("StartSlaves", "no resources available or problems setting up workers (check logs)");
                  else if (slStatus == -98)
                     Error("StartSlaves", "could not setup output redirection on master");
                  else
                     Error("StartSlaves", "setting up master");
                  slave->Close("S");
                  delete slave;
                  return 0;
               }

               if (!slave->IsValid()) {
                  fSlaves->Remove(slave);
                  fAllMonitor->Remove(slave->GetSocket());
                  slave->Close("S");
                  delete slave;
                  Error("StartSlaves",
                        "failed to setup connection with PROOF master server");
                  return kFALSE;
               }

               if (!gROOT->IsBatch() && TestBit(kUseProgressDialog)) {
                  if ((fProgressDialog =
                     gROOT->GetPluginManager()->FindHandler("TProofProgressDialog")))
                     if (fProgressDialog->LoadPlugin() == -1)
                        fProgressDialog = 0;
               }
            } else {
               // Notify
               Printf("Starting master: failure");
            }
         } else {

            // Notify
            Printf("Starting master: OK                                     ");
            StartupMessage("Master attached", kTRUE, 1, 1);

            if (!gROOT->IsBatch() && TestBit(kUseProgressDialog)) {
               if ((fProgressDialog =
                  gROOT->GetPluginManager()->FindHandler("TProofProgressDialog")))
                  if (fProgressDialog->LoadPlugin() == -1)
                     fProgressDialog = 0;
            }

            fSlaves->Add(slave);
            fIntHandler = new TProofInterruptHandler(this);
         }

      } else {
         delete slave;
         // Notify only if verbosity is on: most likely the failure has already been notified
         if (gDebug > 0)
            Error("StartSlaves", "failed to create (or connect to) the PROOF master server");
         return kFALSE;
      }
   }

   return kTRUE;
}

//______________________________________________________________________________
void TProof::Close(Option_t *opt)
{
   // Close all open slave servers.
   // Client can decide to shutdown the remote session by passing option is 'S'
   // or 's'. Default for clients is detach, if supported. Masters always
   // shutdown the remote counterpart.

   {  R__LOCKGUARD2(fCloseMutex);

      fValid = kFALSE;
      if (fSlaves) {
         if (fIntHandler)
            fIntHandler->Remove();

         TIter nxs(fSlaves);
         TSlave *sl = 0;
         while ((sl = (TSlave *)nxs()))
            sl->Close(opt);

         fActiveSlaves->Clear("nodelete");
         fUniqueSlaves->Clear("nodelete");
         fAllUniqueSlaves->Clear("nodelete");
         fNonUniqueMasters->Clear("nodelete");
         fBadSlaves->Clear("nodelete");
         fInactiveSlaves->Clear("nodelete");
         fSlaves->Delete();
      }
   }

   {
      R__LOCKGUARD2(gROOTMutex);
      gROOT->GetListOfSockets()->Remove(this);

      if (fChains) {
         while (TChain *chain = dynamic_cast<TChain*> (fChains->First()) ) {
            // remove "chain" from list
            chain->SetProof(0);
            RemoveChain(chain);
         }
      }

      if (IsProofd()) {

         gROOT->GetListOfProofs()->Remove(this);
         if (gProof && gProof == this) {
            // Set previous proofd-related as default
            TIter pvp(gROOT->GetListOfProofs(), kIterBackward);
            while ((gProof = (TProof *)pvp())) {
               if (gProof->IsProofd())
                  break;
            }
         }
      }
   }
}

//______________________________________________________________________________
TSlave *TProof::CreateSlave(const char *url, const char *ord,
                            Int_t perf, const char *image, const char *workdir)
{
   // Create a new TSlave of type TSlave::kSlave.
   // Note: creation of TSlave is private with TProof as a friend.
   // Derived classes must use this function to create slaves.

   TSlave* sl = TSlave::Create(url, ord, perf, image,
                               this, TSlave::kSlave, workdir, 0);

   if (sl->IsValid()) {
      sl->SetInputHandler(new TProofInputHandler(this, sl->GetSocket()));
      // must set fParallel to 1 for slaves since they do not
      // report their fParallel with a LOG_DONE message
      sl->fParallel = 1;
   }

   return sl;
}


//______________________________________________________________________________
TSlave *TProof::CreateSubmaster(const char *url, const char *ord,
                                const char *image, const char *msd, Int_t nwk)
{
   // Create a new TSlave of type TSlave::kMaster.
   // Note: creation of TSlave is private with TProof as a friend.
   // Derived classes must use this function to create slaves.

   TSlave *sl = TSlave::Create(url, ord, 100, image, this,
                               TSlave::kMaster, 0, msd, nwk);

   if (sl->IsValid()) {
      sl->SetInputHandler(new TProofInputHandler(this, sl->GetSocket()));
   }

   return sl;
}

//______________________________________________________________________________
TSlave *TProof::FindSlave(TSocket *s) const
{
   // Find slave that has TSocket s. Returns 0 in case slave is not found.

   TSlave *sl;
   TIter   next(fSlaves);

   while ((sl = (TSlave *)next())) {
      if (sl->IsValid() && sl->GetSocket() == s)
         return sl;
   }
   return 0;
}

//______________________________________________________________________________
void TProof::FindUniqueSlaves()
{
   // Add to the fUniqueSlave list the active slaves that have a unique
   // (user) file system image. This information is used to transfer files
   // only once to nodes that share a file system (an image). Submasters
   // which are not in fUniqueSlaves are put in the fNonUniqueMasters
   // list. That list is used to trigger the transferring of files to
   // the submaster's unique slaves without the need to transfer the file
   // to the submaster.

   fUniqueSlaves->Clear();
   fUniqueMonitor->RemoveAll();
   fAllUniqueSlaves->Clear();
   fAllUniqueMonitor->RemoveAll();
   fNonUniqueMasters->Clear();

   TIter next(fActiveSlaves);

   while (TSlave *sl = dynamic_cast<TSlave*>(next())) {
      if (fImage == sl->fImage) {
         if (sl->GetSlaveType() == TSlave::kMaster) {
            fNonUniqueMasters->Add(sl);
            fAllUniqueSlaves->Add(sl);
            fAllUniqueMonitor->Add(sl->GetSocket());
         }
         continue;
      }

      TIter next2(fUniqueSlaves);
      TSlave *replace_slave = 0;
      Bool_t add = kTRUE;
      while (TSlave *sl2 = dynamic_cast<TSlave*>(next2())) {
         if (sl->fImage == sl2->fImage) {
            add = kFALSE;
            if (sl->GetSlaveType() == TSlave::kMaster) {
               if (sl2->GetSlaveType() == TSlave::kSlave) {
                  // give preference to master
                  replace_slave = sl2;
                  add = kTRUE;
               } else if (sl2->GetSlaveType() == TSlave::kMaster) {
                  fNonUniqueMasters->Add(sl);
                  fAllUniqueSlaves->Add(sl);
                  fAllUniqueMonitor->Add(sl->GetSocket());
               } else {
                  Error("FindUniqueSlaves", "TSlave is neither Master nor Slave");
                  R__ASSERT(0);
               }
            }
            break;
         }
      }

      if (add) {
         fUniqueSlaves->Add(sl);
         fAllUniqueSlaves->Add(sl);
         fUniqueMonitor->Add(sl->GetSocket());
         fAllUniqueMonitor->Add(sl->GetSocket());
         if (replace_slave) {
            fUniqueSlaves->Remove(replace_slave);
            fAllUniqueSlaves->Remove(replace_slave);
            fUniqueMonitor->Remove(replace_slave->GetSocket());
            fAllUniqueMonitor->Remove(replace_slave->GetSocket());
         }
      }
   }

   // will be actiavted in Collect()
   fUniqueMonitor->DeActivateAll();
   fAllUniqueMonitor->DeActivateAll();
}

//______________________________________________________________________________
Int_t TProof::GetNumberOfSlaves() const
{
   // Return number of slaves as described in the config file.

   return fSlaves->GetSize();
}

//______________________________________________________________________________
Int_t TProof::GetNumberOfActiveSlaves() const
{
   // Return number of active slaves, i.e. slaves that are valid and in
   // the current computing group.

   return fActiveSlaves->GetSize();
}

//______________________________________________________________________________
Int_t TProof::GetNumberOfInactiveSlaves() const
{
   // Return number of inactive slaves, i.e. slaves that are valid but not in
   // the current computing group.

   return fInactiveSlaves->GetSize();
}

//______________________________________________________________________________
Int_t TProof::GetNumberOfUniqueSlaves() const
{
   // Return number of unique slaves, i.e. active slaves that have each a
   // unique different user files system.

   return fUniqueSlaves->GetSize();
}

//______________________________________________________________________________
Int_t TProof::GetNumberOfBadSlaves() const
{
   // Return number of bad slaves. This are slaves that we in the config
   // file, but refused to startup or that died during the PROOF session.

   return fBadSlaves->GetSize();
}

//______________________________________________________________________________
void TProof::AskStatistics()
{
   // Ask the for the statistics of the slaves.

   if (!IsValid()) return;

   Broadcast(kPROOF_GETSTATS, kActive);
   Collect(kActive, fCollectTimeout);
}

//______________________________________________________________________________
void TProof::GetStatistics(Bool_t verbose)
{
   // Get statistics about CPU time, real time and bytes read.
   // If verbose, print the resuls (always available via GetCpuTime(), GetRealTime()
   // and GetBytesRead()

   if (fProtocol > 27) {
      // This returns the correct result
      AskStatistics();
   } else {
      // AskStatistics is buggy: parse the output of Print()
      RedirectHandle_t rh;
      gSystem->RedirectOutput(fLogFileName, "a", &rh);
      Print();
      gSystem->RedirectOutput(0, 0, &rh);
      TMacro *mp = GetLastLog();
      if (mp) {
         // Look for global directories
         TIter nxl(mp->GetListOfLines());
         TObjString *os = 0;
         while ((os = (TObjString *) nxl())) {
            TString s(os->GetName());
            if (s.Contains("Total MB's processed:")) {
               s.ReplaceAll("Total MB's processed:", "");
               if (s.IsFloat()) fBytesRead = (Long64_t) s.Atof() * (1024*1024);
            } else if (s.Contains("Total real time used (s):")) {
               s.ReplaceAll("Total real time used (s):", "");
               if (s.IsFloat()) fRealTime = s.Atof();
            } else if (s.Contains("Total CPU time used (s):")) {
               s.ReplaceAll("Total CPU time used (s):", "");
               if (s.IsFloat()) fCpuTime = s.Atof();
            }
         }
         delete mp;
      }
   }

   if (verbose) {
      Printf(" Real/CPU time (s): %.3f / %.3f; workers: %d; processed: %.2f MBs",
             GetRealTime(), GetCpuTime(), GetParallel(), float(GetBytesRead())/(1024*1024));
   }
}

//______________________________________________________________________________
void TProof::AskParallel()
{
   // Ask the for the number of parallel slaves.

   if (!IsValid()) return;

   Broadcast(kPROOF_GETPARALLEL, kActive);
   Collect(kActive, fCollectTimeout);
}

//______________________________________________________________________________
TList *TProof::GetListOfQueries(Option_t *opt)
{
   // Ask the master for the list of queries.

   if (!IsValid() || TestBit(TProof::kIsMaster)) return (TList *)0;

   Bool_t all = ((strchr(opt,'A') || strchr(opt,'a'))) ? kTRUE : kFALSE;
   TMessage m(kPROOF_QUERYLIST);
   m << all;
   Broadcast(m, kActive);
   Collect(kActive, fCollectTimeout);

   // This should have been filled by now
   return fQueries;
}

//______________________________________________________________________________
Int_t TProof::GetNumberOfQueries()
{
   // Number of queries processed by this session

   if (fQueries)
      return fQueries->GetSize() - fOtherQueries;
   return 0;
}

//______________________________________________________________________________
void TProof::SetMaxDrawQueries(Int_t max)
{
   // Set max number of draw queries whose results are saved

   if (max > 0) {
      if (fPlayer)
         fPlayer->SetMaxDrawQueries(max);
      fMaxDrawQueries = max;
   }
}

//______________________________________________________________________________
void TProof::GetMaxQueries()
{
   // Get max number of queries whose full results are kept in the
   // remote sandbox

   TMessage m(kPROOF_MAXQUERIES);
   m << kFALSE;
   Broadcast(m, kActive);
   Collect(kActive, fCollectTimeout);
}

//______________________________________________________________________________
TList *TProof::GetQueryResults()
{
   // Return pointer to the list of query results in the player

   return (fPlayer ? fPlayer->GetListOfResults() : (TList *)0);
}

//______________________________________________________________________________
TQueryResult *TProof::GetQueryResult(const char *ref)
{
   // Return pointer to the full TQueryResult instance owned by the player
   // and referenced by 'ref'. If ref = 0 or "", return the last query result.

   return (fPlayer ? fPlayer->GetQueryResult(ref) : (TQueryResult *)0);
}

//______________________________________________________________________________
void TProof::ShowQueries(Option_t *opt)
{
   // Ask the master for the list of queries.
   // Options:
   //           "A"     show information about all the queries known to the
   //                   server, i.e. even those processed by other sessions
   //           "L"     show only information about queries locally available
   //                   i.e. already retrieved. If "L" is specified, "A" is
   //                   ignored.
   //           "F"     show all details available about queries
   //           "H"     print help menu
   // Default ""

   Bool_t help = ((strchr(opt,'H') || strchr(opt,'h'))) ? kTRUE : kFALSE;
   if (help) {

      // Help

      Printf("+++");
      Printf("+++ Options: \"A\" show all queries known to server");
      Printf("+++          \"L\" show retrieved queries");
      Printf("+++          \"F\" full listing of query info");
      Printf("+++          \"H\" print this menu");
      Printf("+++");
      Printf("+++ (case insensitive)");
      Printf("+++");
      Printf("+++ Use Retrieve(<#>) to retrieve the full"
             " query results from the master");
      Printf("+++     e.g. Retrieve(8)");

      Printf("+++");

      return;
   }

   if (!IsValid()) return;

   Bool_t local = ((strchr(opt,'L') || strchr(opt,'l'))) ? kTRUE : kFALSE;

   TObject *pq = 0;
   if (!local) {
      GetListOfQueries(opt);

      if (!fQueries) return;

      TIter nxq(fQueries);

      // Queries processed by other sessions
      if (fOtherQueries > 0) {
         Printf("+++");
         Printf("+++ Queries processed during other sessions: %d", fOtherQueries);
         Int_t nq = 0;
         while (nq++ < fOtherQueries && (pq = nxq()))
            pq->Print(opt);
      }

      // Queries processed by this session
      Printf("+++");
      Printf("+++ Queries processed during this session: selector: %d, draw: %d",
              GetNumberOfQueries(), fDrawQueries);
      while ((pq = nxq()))
         pq->Print(opt);

   } else {

      // Queries processed by this session
      Printf("+++");
      Printf("+++ Queries processed during this session: selector: %d, draw: %d",
              GetNumberOfQueries(), fDrawQueries);

      // Queries available locally
      TList *listlocal = fPlayer ? fPlayer->GetListOfResults() : (TList *)0;
      if (listlocal) {
         Printf("+++");
         Printf("+++ Queries available locally: %d", listlocal->GetSize());
         TIter nxlq(listlocal);
         while ((pq = nxlq()))
            pq->Print(opt);
      }
   }
   Printf("+++");
}

//______________________________________________________________________________
Bool_t TProof::IsDataReady(Long64_t &totalbytes, Long64_t &bytesready)
{
   // See if the data is ready to be analyzed.

   if (!IsValid()) return kFALSE;

   TList submasters;
   TIter nextSlave(GetListOfActiveSlaves());
   while (TSlave *sl = dynamic_cast<TSlave*>(nextSlave())) {
      if (sl->GetSlaveType() == TSlave::kMaster) {
         submasters.Add(sl);
      }
   }

   fDataReady = kTRUE; //see if any submasters set it to false
   fBytesReady = 0;
   fTotalBytes = 0;
   //loop over submasters and see if data is ready
   if (submasters.GetSize() > 0) {
      Broadcast(kPROOF_DATA_READY, &submasters);
      Collect(&submasters);
   }

   bytesready = fBytesReady;
   totalbytes = fTotalBytes;

   EmitVA("IsDataReady(Long64_t,Long64_t)", 2, totalbytes, bytesready);

   PDB(kGlobal,2)
      Info("IsDataReady", "%lld / %lld (%s)",
           bytesready, totalbytes, fDataReady?"READY":"NOT READY");

   return fDataReady;
}

//______________________________________________________________________________
void TProof::Interrupt(EUrgent type, ESlaves list)
{
   // Send interrupt to master or slave servers.

   if (!IsValid()) return;

   TList *slaves = 0;
   if (list == kAll)       slaves = fSlaves;
   if (list == kActive)    slaves = fActiveSlaves;
   if (list == kUnique)    slaves = fUniqueSlaves;
   if (list == kAllUnique) slaves = fAllUniqueSlaves;

   if (slaves->GetSize() == 0) return;

   TSlave *sl;
   TIter   next(slaves);

   while ((sl = (TSlave *)next())) {
      if (sl->IsValid()) {

         // Ask slave to progate the interrupt request
         sl->Interrupt((Int_t)type);
      }
   }
}

//______________________________________________________________________________
Int_t TProof::GetParallel() const
{
   // Returns number of slaves active in parallel mode. Returns 0 in case
   // there are no active slaves. Returns -1 in case of error.

   if (!IsValid()) return -1;

   // iterate over active slaves and return total number of slaves
   TIter nextSlave(GetListOfActiveSlaves());
   Int_t nparallel = 0;
   while (TSlave* sl = dynamic_cast<TSlave*>(nextSlave()))
      if (sl->GetParallel() >= 0)
         nparallel += sl->GetParallel();

   return nparallel;
}

//______________________________________________________________________________
TList *TProof::GetListOfSlaveInfos()
{
   // Returns list of TSlaveInfo's. In case of error return 0.

   if (!IsValid()) return 0;

   if (fSlaveInfo == 0) {
      fSlaveInfo = new TSortedList(kSortDescending);
      fSlaveInfo->SetOwner();
   } else {
      fSlaveInfo->Delete();
   }

   TList masters;
   TIter next(GetListOfSlaves());
   TSlave *slave;

   while ((slave = (TSlave *) next()) != 0) {
      if (slave->GetSlaveType() == TSlave::kSlave) {
         const char *name = IsLite() ? gSystem->HostName() : slave->GetName();
         TSlaveInfo *slaveinfo = new TSlaveInfo(slave->GetOrdinal(),
                                                name,
                                                slave->GetPerfIdx());
         fSlaveInfo->Add(slaveinfo);

         TIter nextactive(GetListOfActiveSlaves());
         TSlave *activeslave;
         while ((activeslave = (TSlave *) nextactive())) {
            if (TString(slaveinfo->GetOrdinal()) == activeslave->GetOrdinal()) {
               slaveinfo->SetStatus(TSlaveInfo::kActive);
               break;
            }
         }

         TIter nextbad(GetListOfBadSlaves());
         TSlave *badslave;
         while ((badslave = (TSlave *) nextbad())) {
            if (TString(slaveinfo->GetOrdinal()) == badslave->GetOrdinal()) {
               slaveinfo->SetStatus(TSlaveInfo::kBad);
               break;
            }
         }
         // Get system info if supported
         if (slave->IsValid()) {
            if (slave->GetSocket()->Send(kPROOF_GETSLAVEINFO) == -1)
               MarkBad(slave, "could not send kPROOF_GETSLAVEINFO message");
            else
               masters.Add(slave);
         }

      } else if (slave->GetSlaveType() == TSlave::kMaster) {
         if (slave->IsValid()) {
            if (slave->GetSocket()->Send(kPROOF_GETSLAVEINFO) == -1)
               MarkBad(slave, "could not send kPROOF_GETSLAVEINFO message");
            else
               masters.Add(slave);
         }
      } else {
         Error("GetSlaveInfo", "TSlave is neither Master nor Slave");
         R__ASSERT(0);
      }
   }
   if (masters.GetSize() > 0) Collect(&masters);

   return fSlaveInfo;
}

//______________________________________________________________________________
void TProof::Activate(TList *slaves)
{
   // Activate slave server list.

   TMonitor *mon = fAllMonitor;
   mon->DeActivateAll();

   slaves = !slaves ? fActiveSlaves : slaves;

   TIter next(slaves);
   TSlave *sl;
   while ((sl = (TSlave*) next())) {
      if (sl->IsValid())
         mon->Activate(sl->GetSocket());
   }
}

//______________________________________________________________________________
void TProof::SetMonitor(TMonitor *mon, Bool_t on)
{
   // Activate (on == TRUE) or deactivate (on == FALSE) all sockets
   // monitored by 'mon'.

   TMonitor *m = (mon) ? mon : fCurrentMonitor;
   if (m) {
      if (on)
         m->ActivateAll();
      else
         m->DeActivateAll();
   }
}

//______________________________________________________________________________
Int_t TProof::BroadcastGroupPriority(const char *grp, Int_t priority, TList *workers)
{
   // Broadcast the group priority to all workers in the specified list. Returns
   // the number of workers the message was successfully sent to.
   // Returns -1 in case of error.

   if (!IsValid()) return -1;

   if (workers->GetSize() == 0) return 0;

   int   nsent = 0;
   TIter next(workers);

   TSlave *wrk;
   while ((wrk = (TSlave *)next())) {
      if (wrk->IsValid()) {
         if (wrk->SendGroupPriority(grp, priority) == -1)
            MarkBad(wrk, "could not send group priority");
         else
            nsent++;
      }
   }

   return nsent;
}

//______________________________________________________________________________
Int_t TProof::BroadcastGroupPriority(const char *grp, Int_t priority, ESlaves list)
{
   // Broadcast the group priority to all workers in the specified list. Returns
   // the number of workers the message was successfully sent to.
   // Returns -1 in case of error.

   TList *workers = 0;
   if (list == kAll)       workers = fSlaves;
   if (list == kActive)    workers = fActiveSlaves;
   if (list == kUnique)    workers = fUniqueSlaves;
   if (list == kAllUnique) workers = fAllUniqueSlaves;

   return BroadcastGroupPriority(grp, priority, workers);
}

//______________________________________________________________________________
void TProof::ResetMergePrg()
{
   // Reset the merge progress notificator

   fMergePrg.Reset(fActiveSlaves->GetSize());
}

//______________________________________________________________________________
Int_t TProof::Broadcast(const TMessage &mess, TList *slaves)
{
   // Broadcast a message to all slaves in the specified list. Returns
   // the number of slaves the message was successfully sent to.
   // Returns -1 in case of error.

   if (!IsValid()) return -1;

   if (!slaves || slaves->GetSize() == 0) return 0;

   int   nsent = 0;
   TIter next(slaves);

   TSlave *sl;
   while ((sl = (TSlave *)next())) {
      if (sl->IsValid()) {
         if (sl->GetSocket()->Send(mess) == -1)
            MarkBad(sl, "could not broadcast request");
         else
            nsent++;
      }
   }

   return nsent;
}

//______________________________________________________________________________
Int_t TProof::Broadcast(const TMessage &mess, ESlaves list)
{
   // Broadcast a message to all slaves in the specified list (either
   // all slaves or only the active slaves). Returns the number of slaves
   // the message was successfully sent to. Returns -1 in case of error.

   TList *slaves = 0;
   if (list == kAll)       slaves = fSlaves;
   if (list == kActive)    slaves = fActiveSlaves;
   if (list == kUnique)    slaves = fUniqueSlaves;
   if (list == kAllUnique) slaves = fAllUniqueSlaves;

   return Broadcast(mess, slaves);
}

//______________________________________________________________________________
Int_t TProof::Broadcast(const char *str, Int_t kind, TList *slaves)
{
   // Broadcast a character string buffer to all slaves in the specified
   // list. Use kind to set the TMessage what field. Returns the number of
   // slaves the message was sent to. Returns -1 in case of error.

   TMessage mess(kind);
   if (str) mess.WriteString(str);
   return Broadcast(mess, slaves);
}

//______________________________________________________________________________
Int_t TProof::Broadcast(const char *str, Int_t kind, ESlaves list)
{
   // Broadcast a character string buffer to all slaves in the specified
   // list (either all slaves or only the active slaves). Use kind to
   // set the TMessage what field. Returns the number of slaves the message
   // was sent to. Returns -1 in case of error.

   TMessage mess(kind);
   if (str) mess.WriteString(str);
   return Broadcast(mess, list);
}

//______________________________________________________________________________
Int_t TProof::BroadcastObject(const TObject *obj, Int_t kind, TList *slaves)
{
   // Broadcast an object to all slaves in the specified list. Use kind to
   // set the TMEssage what field. Returns the number of slaves the message
   // was sent to. Returns -1 in case of error.

   TMessage mess(kind);
   mess.WriteObject(obj);
   return Broadcast(mess, slaves);
}

//______________________________________________________________________________
Int_t TProof::BroadcastObject(const TObject *obj, Int_t kind, ESlaves list)
{
   // Broadcast an object to all slaves in the specified list. Use kind to
   // set the TMEssage what field. Returns the number of slaves the message
   // was sent to. Returns -1 in case of error.

   TMessage mess(kind);
   mess.WriteObject(obj);
   return Broadcast(mess, list);
}

//______________________________________________________________________________
Int_t TProof::BroadcastRaw(const void *buffer, Int_t length, TList *slaves)
{
   // Broadcast a raw buffer of specified length to all slaves in the
   // specified list. Returns the number of slaves the buffer was sent to.
   // Returns -1 in case of error.

   if (!IsValid()) return -1;

   if (slaves->GetSize() == 0) return 0;

   int   nsent = 0;
   TIter next(slaves);

   TSlave *sl;
   while ((sl = (TSlave *)next())) {
      if (sl->IsValid()) {
         if (sl->GetSocket()->SendRaw(buffer, length) == -1)
            MarkBad(sl, "could not send broadcast-raw request");
         else
            nsent++;
      }
   }

   return nsent;
}

//______________________________________________________________________________
Int_t TProof::BroadcastRaw(const void *buffer, Int_t length, ESlaves list)
{
   // Broadcast a raw buffer of specified length to all slaves in the
   // specified list. Returns the number of slaves the buffer was sent to.
   // Returns -1 in case of error.

   TList *slaves = 0;
   if (list == kAll)       slaves = fSlaves;
   if (list == kActive)    slaves = fActiveSlaves;
   if (list == kUnique)    slaves = fUniqueSlaves;
   if (list == kAllUnique) slaves = fAllUniqueSlaves;

   return BroadcastRaw(buffer, length, slaves);
}

//______________________________________________________________________________
Int_t TProof::BroadcastFile(const char *file, Int_t opt, const char *rfile, TList *wrks)
{
   // Broadcast file to all workers in the specified list. Returns the number of workers
   // the buffer was sent to.
   // Returns -1 in case of error.

   if (!IsValid()) return -1;

   if (wrks->GetSize() == 0) return 0;

   int   nsent = 0;
   TIter next(wrks);

   TSlave *wrk;
   while ((wrk = (TSlave *)next())) {
      if (wrk->IsValid()) {
         if (SendFile(file, opt, rfile, wrk) < 0)
            Error("BroadcastFile",
                  "problems sending file to worker %s (%s)",
                  wrk->GetOrdinal(), wrk->GetName());
         else
            nsent++;
      }
   }

   return nsent;
}

//______________________________________________________________________________
Int_t TProof::BroadcastFile(const char *file, Int_t opt, const char *rfile, ESlaves list)
{
   // Broadcast file to all workers in the specified list. Returns the number of workers
   // the buffer was sent to.
   // Returns -1 in case of error.

   TList *wrks = 0;
   if (list == kAll)       wrks = fSlaves;
   if (list == kActive)    wrks = fActiveSlaves;
   if (list == kUnique)    wrks = fUniqueSlaves;
   if (list == kAllUnique) wrks = fAllUniqueSlaves;

   return BroadcastFile(file, opt, rfile, wrks);
}

//______________________________________________________________________________
void TProof::ReleaseMonitor(TMonitor *mon)
{
   // Release the used monitor to be used, making sure to delete newly created
   // monitors.

   if (mon && (mon != fAllMonitor) && (mon != fActiveMonitor)
           && (mon != fUniqueMonitor) && (mon != fAllUniqueMonitor)) {
      delete mon;
   }
}

//______________________________________________________________________________
Int_t TProof::Collect(const TSlave *sl, Long_t timeout, Int_t endtype, Bool_t deactonfail)
{
   // Collect responses from slave sl. Returns the number of slaves that
   // responded (=1).
   // If timeout >= 0, wait at most timeout seconds (timeout = -1 by default,
   // which means wait forever).
   // If defined (>= 0) endtype is the message that stops this collection.

   Int_t rc = 0;

   TMonitor *mon = 0;
   if (!sl->IsValid()) return 0;

   if (fCurrentMonitor == fAllMonitor) {
      mon = new TMonitor;
   } else {
      mon = fAllMonitor;
      mon->DeActivateAll();
   }
   mon->Activate(sl->GetSocket());

   rc = Collect(mon, timeout, endtype, deactonfail);
   ReleaseMonitor(mon);
   return rc;
}

//______________________________________________________________________________
Int_t TProof::Collect(TList *slaves, Long_t timeout, Int_t endtype, Bool_t deactonfail)
{
   // Collect responses from the slave servers. Returns the number of slaves
   // that responded.
   // If timeout >= 0, wait at most timeout seconds (timeout = -1 by default,
   // which means wait forever).
   // If defined (>= 0) endtype is the message that stops this collection.

   Int_t rc = 0;

   TMonitor *mon = 0;

   if (fCurrentMonitor == fAllMonitor) {
      mon = new TMonitor;
   } else {
      mon = fAllMonitor;
      mon->DeActivateAll();
   }
   TIter next(slaves);
   TSlave *sl;
   while ((sl = (TSlave*) next())) {
      if (sl->IsValid())
         mon->Activate(sl->GetSocket());
   }

   rc = Collect(mon, timeout, endtype, deactonfail);
   ReleaseMonitor(mon);
   return rc;
}

//______________________________________________________________________________
Int_t TProof::Collect(ESlaves list, Long_t timeout, Int_t endtype, Bool_t deactonfail)
{
   // Collect responses from the slave servers. Returns the number of slaves
   // that responded.
   // If timeout >= 0, wait at most timeout seconds (timeout = -1 by default,
   // which means wait forever).
   // If defined (>= 0) endtype is the message that stops this collection.

   Int_t rc = 0;
   TMonitor *mon = 0;

   if (list == kAll)       mon = fAllMonitor;
   if (list == kActive)    mon = fActiveMonitor;
   if (list == kUnique)    mon = fUniqueMonitor;
   if (list == kAllUnique) mon = fAllUniqueMonitor;
   if (fCurrentMonitor == mon) {
      // Get a copy
      mon = new TMonitor(*mon);
   }
   mon->ActivateAll();

   rc = Collect(mon, timeout, endtype, deactonfail);
   ReleaseMonitor(mon);
   return rc;
}

//______________________________________________________________________________
Int_t TProof::Collect(TMonitor *mon, Long_t timeout, Int_t endtype, Bool_t deactonfail)
{
   // Collect responses from the slave servers. Returns the number of messages
   // received. Can be 0 if there are no active slaves.
   // If timeout >= 0, wait at most timeout seconds (timeout = -1 by default,
   // which means wait forever).
   // If defined (>= 0) endtype is the message that stops this collection.
   // Collect also stops its execution from time to time to check for new
   // workers in Dynamic Startup mode.

   Int_t collectId = gRandom->Integer(9999);

   PDB(kCollect, 3)
      Info("Collect", ">>>>>> Entering collect responses #%04d", collectId);

   // Reset the status flag and clear the messages in the list, if any
   fStatus = 0;
   fRecvMessages->Clear();

   Long_t actto = (Long_t)(gEnv->GetValue("Proof.SocketActivityTimeout", -1) * 1000);

   if (!mon->GetActive(actto)) return 0;

   DeActivateAsyncInput();

   // Used by external code to know what we are monitoring
   TMonitor *savedMonitor = 0;
   if (fCurrentMonitor) {
      savedMonitor = fCurrentMonitor;
      fCurrentMonitor = mon;
   } else {
      fCurrentMonitor = mon;
      fBytesRead = 0;
      fRealTime  = 0.0;
      fCpuTime   = 0.0;
   }

   // We want messages on the main window during synchronous collection,
   // but we save the present status to restore it at the end
   Bool_t saveRedirLog = fRedirLog;
   if (!IsIdle() && !IsSync())
      fRedirLog = kFALSE;

   int cnt = 0, rc = 0;

   // Timeout counter
   Long_t nto = timeout;
   PDB(kCollect, 2)
      Info("Collect","#%04d: active: %d", collectId, mon->GetActive());

   // On clients, handle Ctrl-C during collection
   if (fIntHandler)
      fIntHandler->Add();

   // Sockets w/o activity during the last 'sto' millisecs are deactivated
   Int_t nact = 0;
   Long_t sto = -1;
   Int_t nsto = 60;
   Int_t pollint = gEnv->GetValue("Proof.DynamicStartupPollInt", (Int_t) kPROOF_DynWrkPollInt_s);
   mon->ResetInterrupt();
   while ((nact = mon->GetActive(sto)) && (nto < 0 || nto > 0)) {

      // Dump last waiting sockets, if in debug mode
      PDB(kCollect, 2) {
         if (nact < 4) {
            TList *al = mon->GetListOfActives();
            if (al && al->GetSize() > 0) {
               Info("Collect"," %d node(s) still active:", al->GetSize());
               TIter nxs(al);
               TSocket *xs = 0;
               while ((xs = (TSocket *)nxs())) {
                  TSlave *wrk = FindSlave(xs);
                  if (wrk)
                     Info("Collect","   %s (%s)", wrk->GetName(), wrk->GetOrdinal());
                  else
                     Info("Collect","   %p: %s:%d", xs, xs->GetInetAddress().GetHostName(),
                                                        xs->GetInetAddress().GetPort());
               }
            }
         }
      }

      // Preemptive poll for new workers on the master only in Dynamic Mode and only
      // during processing (TODO: should work on Top Master only)
      if (TestBit(TProof::kIsMaster) && !IsIdle() && fDynamicStartup && !fIsPollingWorkers &&
         ((fLastPollWorkers_s == -1) || (time(0)-fLastPollWorkers_s >= pollint))) {
         fIsPollingWorkers = kTRUE;
         if (PollForNewWorkers() > 0) DeActivateAsyncInput();
         fLastPollWorkers_s = time(0);
         fIsPollingWorkers = kFALSE;
         PDB(kCollect, 1)
            Info("Collect","#%04d: now active: %d", collectId, mon->GetActive());
      }

      // Wait for a ready socket
      PDB(kCollect, 3)
         Info("Collect", "Will invoke Select() #%04d", collectId);
      TSocket *s = mon->Select(1000);

      if (s && s != (TSocket *)(-1)) {
         // Get and analyse the info it did receive
         rc = CollectInputFrom(s, endtype, deactonfail);
         if (rc  == 1 || (rc == 2 && !savedMonitor)) {
            // Deactivate it if we are done with it
            mon->DeActivate(s);
            PDB(kCollect, 2)
               Info("Collect","#%04d: deactivating %p (active: %d, %p)", collectId,
                              s, mon->GetActive(),
                              mon->GetListOfActives()->First());
         } else if (rc == 2) {
            // This end message was for the saved monitor
            // Deactivate it if we are done with it
            if (savedMonitor) {
               savedMonitor->DeActivate(s);
               PDB(kCollect, 2)
                  Info("Collect","save monitor: deactivating %p (active: %d, %p)",
                                 s, savedMonitor->GetActive(),
                                 savedMonitor->GetListOfActives()->First());
            }
         }

         // Update counter (if no error occured)
         if (rc >= 0)
            cnt++;
      } else {
         // If not timed-out, exit if not stopped or not aborted
         // (player exits status is finished in such a case); otherwise,
         // we still need to collect the partial output info
         if (!s)
            if (fPlayer && (fPlayer->GetExitStatus() == TVirtualProofPlayer::kFinished))
               mon->DeActivateAll();
         // Decrease the timeout counter if requested
         if (s == (TSocket *)(-1) && nto > 0)
            nto--;
      }

      // Check if there are workers with ready output to be sent and ask the first to send it
      if (IsMaster() && fWrksOutputReady && fWrksOutputReady->GetSize() > 0) {
         // Maximum number of concurrent sendings
         Int_t mxws = gEnv->GetValue("Proof.ControlSendOutput", 1);
         if (TProof::GetParameter(fPlayer->GetInputList(), "PROOF_ControlSendOutput", mxws) != 0)
            mxws = gEnv->GetValue("Proof.ControlSendOutput", 1);
         TIter nxwr(fWrksOutputReady);
         TSlave *wrk = 0;
         while (mxws && (wrk = (TSlave *) nxwr())) {
            if (!wrk->TestBit(TSlave::kOutputRequested)) {
               // Ask worker for output
               TMessage sendoutput(kPROOF_SENDOUTPUT);
               PDB(kCollect, 2)
                  Info("Collect", "worker %s was asked to send its output to master",
                                                wrk->GetOrdinal());
               if (wrk->GetSocket()->Send(sendoutput) != 1) {
                  wrk->SetBit(TSlave::kOutputRequested);
                  mxws--;
               }
            } else {
               // Count
               mxws--;
            }
         }
      }

      // Check if we need to check the socket activity (we do it every 10 cycles ~ 10 sec)
      sto = -1;
      if (--nsto <= 0) {
         sto = (Long_t) actto;
         nsto = 60;
      }

   } // end loop over active monitors

   // If timed-out, deactivate the remaining sockets
   if (nto == 0) {
      TList *al = mon->GetListOfActives();
      if (al && al->GetSize() > 0) {
         // Notify the name of those which did timeout
         Info("Collect"," %d node(s) went in timeout:", al->GetSize());
         TIter nxs(al);
         TSocket *xs = 0;
         while ((xs = (TSocket *)nxs())) {
            TSlave *wrk = FindSlave(xs);
            if (wrk)
               Info("Collect","   %s", wrk->GetName());
            else
               Info("Collect","   %p: %s:%d", xs, xs->GetInetAddress().GetHostName(),
                                                  xs->GetInetAddress().GetPort());
         }
      }
      mon->DeActivateAll();
   }

   // Deactivate Ctrl-C special handler
   if (fIntHandler)
      fIntHandler->Remove();

   // make sure group view is up to date
   SendGroupView();

   // Restore redirection setting
   fRedirLog = saveRedirLog;

   // Restore the monitor
   fCurrentMonitor = savedMonitor;

   ActivateAsyncInput();

   PDB(kCollect, 3)
      Info("Collect", "<<<<<< Exiting collect responses #%04d", collectId);

   return cnt;
}

//______________________________________________________________________________
Int_t TProof::PollForNewWorkers()
{
   // Asks the PROOF Serv for new workers in Dynamic Startup mode and activates
   // them. Returns the number of new workers found, or <0 on errors.

   // Requests for worker updates
   Int_t dummy = 0;
   TList *reqWorkers = new TList();
   reqWorkers->SetOwner(kFALSE);

   if (!TestBit(TProof::kIsMaster)) {
      Error("PollForNewWorkers", "Can't invoke: not on a master -- should not happen!");
      return -1;
   }
   if (!gProofServ) {
      Error("PollForNewWorkers", "No ProofServ available -- should not happen!");
      return -1;
   }

   gProofServ->GetWorkers(reqWorkers, dummy, kTRUE);  // last 2 are dummy

   // List of new workers only (TProofNodeInfo)
   TList *newWorkers = new TList();
   newWorkers->SetOwner(kTRUE);

   TIter next(reqWorkers);
   TProofNodeInfo *ni;
   TString fullOrd;
   while (( ni = dynamic_cast<TProofNodeInfo *>(next()) )) {

      // Form the full ordinal
      fullOrd.Form("%s.%s", gProofServ->GetOrdinal(), ni->GetOrdinal().Data());

      TIter nextInner(fSlaves);
      TSlave *sl;
      Bool_t found = kFALSE;
      while (( sl = dynamic_cast<TSlave *>(nextInner()) )) {
         if ( strcmp(sl->GetOrdinal(), fullOrd.Data()) == 0 ) {
            found = kTRUE;
            break;
         }
      }

      if (found) delete ni;
      else {
         newWorkers->Add(ni);
         PDB(kGlobal, 1)
            Info("PollForNewWorkers", "New worker found: %s:%s",
               ni->GetNodeName().Data(), fullOrd.Data());
      }
   }

   delete reqWorkers;  // not owner

   Int_t nNewWorkers = newWorkers->GetEntries();

   // Add the new workers
   if (nNewWorkers > 0) {
      PDB(kGlobal, 1)
         Info("PollForNewWorkers", "Requesting to add %d new worker(s)", newWorkers->GetEntries());
      Int_t rv = AddWorkers(newWorkers);
      if (rv < 0) {
         Error("PollForNewWorkers", "Call to AddWorkers() failed (got %d < 0)", rv);
         return -1;
      }
      // Don't delete newWorkers: AddWorkers() will do that
   }
   else {
      PDB(kGlobal, 2)
         Info("PollForNewWorkers", "No new worker found");
      delete newWorkers;
   }

   return nNewWorkers;
}

//______________________________________________________________________________
void TProof::CleanGDirectory(TList *ol)
{
   // Remove links to objects in list 'ol' from gDirectory

   if (ol) {
      TIter nxo(ol);
      TObject *o = 0;
      while ((o = nxo()))
         gDirectory->RecursiveRemove(o);
   }
}

//______________________________________________________________________________
Int_t TProof::CollectInputFrom(TSocket *s, Int_t endtype, Bool_t deactonfail)
{
   // Collect and analyze available input from socket s.
   // Returns 0 on success, -1 if any failure occurs.

   TMessage *mess;

   Int_t recvrc = 0;
   if ((recvrc = s->Recv(mess)) < 0) {
      PDB(kCollect,2)
         Info("CollectInputFrom","%p: got %d from Recv()", s, recvrc);
      Bool_t bad = kTRUE;
      if (recvrc == -5) {
         // Broken connection: try reconnection
         if (fCurrentMonitor) fCurrentMonitor->Remove(s);
         if (s->Reconnect() == 0) {
            if (fCurrentMonitor) fCurrentMonitor->Add(s);
            bad = kFALSE;
         }
      }
      if (bad)
         MarkBad(s, "problems receiving a message in TProof::CollectInputFrom(...)");
      // Ignore this wake up
      return -1;
   }
   if (!mess) {
      // we get here in case the remote server died
      MarkBad(s, "undefined message in TProof::CollectInputFrom(...)");
      return -1;
   }
   Int_t rc = 0;

   Int_t what = mess->What();
   TSlave *sl = FindSlave(s);
   rc = HandleInputMessage(sl, mess, deactonfail);
   if (rc == 1 && (endtype >= 0) && (what != endtype))
      // This message was for the base monitor in recursive case
      rc = 2;

   // We are done successfully
   return rc;
}

//______________________________________________________________________________
Int_t TProof::HandleInputMessage(TSlave *sl, TMessage *mess, Bool_t deactonfail)
{
   // Analyze the received message.
   // Returns 0 on success (1 if this the last message from this socket), -1 if
   // any failure occurs.

   char str[512];
   TObject *obj;
   Int_t rc = 0;

   if (!mess || !sl) {
      Warning("HandleInputMessage", "given an empty message or undefined worker");
      return -1;
   }
   Bool_t delete_mess = kTRUE;
   TSocket *s = sl->GetSocket();
   if (!s) {
      Warning("HandleInputMessage", "worker socket is undefined");
      return -1;
   }

   // The message type
   Int_t what = mess->What();

   PDB(kCollect,3)
      Info("HandleInputMessage", "got type %d from '%s'", what, sl->GetOrdinal());

   switch (what) {

      case kMESS_OK:
         // Add the message to the list
         fRecvMessages->Add(mess);
         delete_mess = kFALSE;
         break;

      case kMESS_OBJECT:
         if (fPlayer) fPlayer->HandleRecvHisto(mess);
         break;

      case kPROOF_FATAL:
         {  TString msg;
            if ((mess->BufferSize() > mess->Length()))
               (*mess) >> msg;
            if (msg.IsNull()) {
               MarkBad(s, "received kPROOF_FATAL");
            } else {
               MarkBad(s, msg);
            }
         }
         if (fProgressDialogStarted) {
            // Finalize the progress dialog
            Emit("StopProcess(Bool_t)", kTRUE);
         }
         break;

      case kPROOF_STOP:
         // Stop collection from this worker
         Info("HandleInputMessage", "received kPROOF_STOP from %s: disabling any further collection this worker",
              sl->GetOrdinal());
         rc = 1;
         break;

      case kPROOF_GETTREEHEADER:
         // Add the message to the list
         fRecvMessages->Add(mess);
         delete_mess = kFALSE;
         rc = 1;
         break;

      case kPROOF_TOUCH:
         // send a request for touching the remote admin file
         {
            sl->Touch();
         }
         break;

      case kPROOF_GETOBJECT:
         // send slave object it asks for
         mess->ReadString(str, sizeof(str));
         obj = gDirectory->Get(str);
         if (obj)
            s->SendObject(obj);
         else
            s->Send(kMESS_NOTOK);
         break;

      case kPROOF_GETPACKET:
         {
            PDB(kGlobal,2)
               Info("HandleInputMessage","%s: kPROOF_GETPACKET", sl->GetOrdinal());
            TDSetElement *elem = 0;
            elem = fPlayer ? fPlayer->GetNextPacket(sl, mess) : 0;

            if (elem != (TDSetElement*) -1) {
               TMessage answ(kPROOF_GETPACKET);
               answ << elem;
               s->Send(answ);

               while (fWaitingSlaves != 0 && fWaitingSlaves->GetSize()) {
                  TPair *p = (TPair*) fWaitingSlaves->First();
                  s = (TSocket*) p->Key();
                  TMessage *m = (TMessage*) p->Value();

                  elem = fPlayer ? fPlayer->GetNextPacket(sl, m) : 0;
                  if (elem != (TDSetElement*) -1) {
                     TMessage a(kPROOF_GETPACKET);
                     a << elem;
                     s->Send(a);
                     // remove has to happen via Links because TPair does not have
                     // a Compare() function and therefore RemoveFirst() and
                     // Remove(TObject*) do not work
                     fWaitingSlaves->Remove(fWaitingSlaves->FirstLink());
                     delete p;
                     delete m;
                  } else {
                     break;
                  }
               }
            } else {
               if (fWaitingSlaves == 0) fWaitingSlaves = new TList;
               fWaitingSlaves->Add(new TPair(s, mess));
               delete_mess = kFALSE;
            }
         }
         break;

      case kPROOF_LOGFILE:
         {
            Int_t size;
            (*mess) >> size;
            PDB(kGlobal,2)
               Info("HandleInputMessage","%s: kPROOF_LOGFILE: size: %d", sl->GetOrdinal(), size);
            RecvLogFile(s, size);
         }
         break;

      case kPROOF_LOGDONE:
         (*mess) >> sl->fStatus >> sl->fParallel;
         PDB(kCollect,2)
            Info("HandleInputMessage","%s: kPROOF_LOGDONE: status %d  parallel %d",
                 sl->GetOrdinal(), sl->fStatus, sl->fParallel);
         if (sl->fStatus != 0) {
            // Return last nonzero status
            fStatus = sl->fStatus;
            // Deactivate the worker, if required
            if (deactonfail) DeactivateWorker(sl->fOrdinal);
         }
         // Remove from the workers-ready list
         if (fWrksOutputReady && fWrksOutputReady->FindObject(sl)) {
            sl->ResetBit(TSlave::kOutputRequested);
            fWrksOutputReady->Remove(sl);
         }
         rc = 1;
         break;

      case kPROOF_GETSTATS:
         {
            (*mess) >> sl->fBytesRead >> sl->fRealTime >> sl->fCpuTime
                  >> sl->fWorkDir >> sl->fProofWorkDir;
            PDB(kCollect,2)
               Info("HandleInputMessage", "kPROOF_GETSTATS: %s", sl->fWorkDir.Data());
            TString img;
            if ((mess->BufferSize() > mess->Length()))
               (*mess) >> img;
            // Set image
            if (img.IsNull()) {
               if (sl->fImage.IsNull())
                  sl->fImage.Form("%s:%s", TUrl(sl->fName).GetHostFQDN(),
                                           sl->fProofWorkDir.Data());
            } else {
               sl->fImage = img;
            }
            PDB(kGlobal,2)
               Info("HandleInputMessage",
                        "kPROOF_GETSTATS:%s image: %s", sl->GetOrdinal(), sl->GetImage());

            fBytesRead += sl->fBytesRead;
            fRealTime  += sl->fRealTime;
            fCpuTime   += sl->fCpuTime;
            rc = 1;
         }
         break;

      case kPROOF_GETPARALLEL:
         {
            Bool_t async = kFALSE;
            (*mess) >> sl->fParallel;
            if ((mess->BufferSize() > mess->Length()))
               (*mess) >> async;
            rc = (async) ? 0 : 1;
         }
         break;

      case kPROOF_CHECKFILE:
         {  // New servers (>= 5.22) send the status
            if ((mess->BufferSize() > mess->Length())) {
               (*mess) >> fCheckFileStatus;
            } else {
               // Form old servers this meant success (failure was signaled with the
               // dangerous kPROOF_FATAL)
               fCheckFileStatus = 1;
            }
            rc = 1;
         }
         break;

      case kPROOF_SENDFILE:
         {  // New server: signals ending of sendfile operation
            rc = 1;
         }
         break;

      case kPROOF_PACKAGE_LIST:
         {
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_PACKAGE_LIST: enter");
            Int_t type = 0;
            (*mess) >> type;
            switch (type) {
            case TProof::kListEnabledPackages:
               SafeDelete(fEnabledPackages);
               fEnabledPackages = (TList *) mess->ReadObject(TList::Class());
               if (fEnabledPackages) {
                  fEnabledPackages->SetOwner();
               } else {
                  Error("HandleInputMessage",
                        "kPROOF_PACKAGE_LIST: kListEnabledPackages: TList not found in message!");
               }
               break;
            case TProof::kListPackages:
               SafeDelete(fAvailablePackages);
               fAvailablePackages = (TList *) mess->ReadObject(TList::Class());
               if (fAvailablePackages) {
                  fAvailablePackages->SetOwner();
               } else {
                  Error("HandleInputMessage",
                        "kPROOF_PACKAGE_LIST: kListPackages: TList not found in message!");
               }
               break;
            default:
               Error("HandleInputMessage", "kPROOF_PACKAGE_LIST: unknown type: %d", type);
            }
         }
         break;

      case kPROOF_SENDOUTPUT:
         {
            // We start measuring the merging time
            fPlayer->SetMerging();

            // Worker is ready to send output: make sure the relevant bit is reset
            sl->ResetBit(TSlave::kOutputRequested);
            PDB(kGlobal,2)
               Info("HandleInputMessage","kPROOF_SENDOUTPUT: enter (%s)", sl->GetOrdinal());
            // Create the list if not yet done
            if (!fWrksOutputReady) {
               fWrksOutputReady = new TList;
               fWrksOutputReady->SetOwner(kFALSE);
            }
            fWrksOutputReady->Add(sl);
         }
         break;

      case kPROOF_OUTPUTOBJECT:
         {
            // We start measuring the merging time
            fPlayer->SetMerging();

            PDB(kGlobal,2)
               Info("HandleInputMessage","kPROOF_OUTPUTOBJECT: enter");
            Int_t type = 0;
            const char *prefix = gProofServ ? gProofServ->GetPrefix() : "Lite-0";
            if (!TestBit(TProof::kIsClient) && !fMergersSet && !fFinalizationRunning) {
               Info("HandleInputMessage", "finalization on %s started ...", prefix);
               fFinalizationRunning = kTRUE;
            }

            while ((mess->BufferSize() > mess->Length())) {
               (*mess) >> type;
               // If a query result header, add it to the player list
               if (fPlayer) {
                  if (type == 0) {
                     // Retrieve query result instance (output list not filled)
                     TQueryResult *pq =
                        (TQueryResult *) mess->ReadObject(TQueryResult::Class());
                     if (pq) {
                        // Add query to the result list in TProofPlayer
                        fPlayer->AddQueryResult(pq);
                        fPlayer->SetCurrentQuery(pq);
                        // And clear the output list, as we start merging a new set of results
                        if (fPlayer->GetOutputList())
                           fPlayer->GetOutputList()->Clear();
                        // Add the unique query tag as TNamed object to the input list
                        // so that it is available in TSelectors for monitoring
                        TString qid = TString::Format("%s:%s",pq->GetTitle(),pq->GetName());
                        if (fPlayer->GetInputList()->FindObject("PROOF_QueryTag"))
                           fPlayer->GetInputList()->Remove(fPlayer->GetInputList()->FindObject("PROOF_QueryTag"));
                        fPlayer->AddInput(new TNamed("PROOF_QueryTag", qid.Data()));
                     } else {
                        Warning("HandleInputMessage","kPROOF_OUTPUTOBJECT: query result missing");
                     }
                  } else if (type > 0) {
                     // Read object
                     TObject *o = mess->ReadObject(TObject::Class());
                     // Increment counter on the client side
                     fMergePrg.IncreaseIdx();
                     TString msg;
                     Bool_t changed = kFALSE;
                     msg.Form("%s: merging output objects ... %s", prefix, fMergePrg.Export(changed));
                     if (gProofServ) {
                        gProofServ->SendAsynMessage(msg.Data(), kFALSE);
                     } else if (IsTty() || changed) {
                        fprintf(stderr, "%s\r", msg.Data());
                     }
                     // Add or merge it
                     if ((fPlayer->AddOutputObject(o) == 1)) {
                        // Remove the object if it has been merged
                        SafeDelete(o);
                     }
                     if (type > 1) {
                        // Update the merger progress info
                        fMergePrg.DecreaseNWrks();
                        if (TestBit(TProof::kIsClient) && !IsLite()) {
                           // In PROOFLite this has to be done once only in TProofLite::Process
                           TQueryResult *pq = fPlayer->GetCurrentQuery();
                           if (pq) {
                              pq->SetOutputList(fPlayer->GetOutputList(), kFALSE);
                              // Add input objects (do not override remote settings, if any)
                              TObject *xo = 0;
                              TIter nxin(fPlayer->GetInputList());
                              // Servers prior to 5.28/00 do not create the input list in the TQueryResult
                              if (!pq->GetInputList()) pq->SetInputList(new TList());
                              while ((xo = nxin()))
                                 if (!pq->GetInputList()->FindObject(xo->GetName()))
                                    pq->AddInput(xo->Clone());
                              // If the last object, notify the GUI that the result arrived
                              QueryResultReady(TString::Format("%s:%s", pq->GetTitle(), pq->GetName()));
                           }
                           // Processing is over
                           UpdateDialog();
                        }
                     }
                  }
               } else {
                  Warning("HandleInputMessage", "kPROOF_OUTPUTOBJECT: player undefined!");
               }
            }
         }
         break;

      case kPROOF_OUTPUTLIST:
         {
            // We start measuring the merging time
            fPlayer->SetMerging();

            PDB(kGlobal,2)
               Info("HandleInputMessage","%s: kPROOF_OUTPUTLIST: enter", sl->GetOrdinal());
            TList *out = 0;
            if (fPlayer) {
               if (TestBit(TProof::kIsMaster) || fProtocol < 7) {
                  out = (TList *) mess->ReadObject(TList::Class());
               } else {
                  TQueryResult *pq =
                     (TQueryResult *) mess->ReadObject(TQueryResult::Class());
                  if (pq) {
                     // Add query to the result list in TProofPlayer
                     fPlayer->AddQueryResult(pq);
                     fPlayer->SetCurrentQuery(pq);
                     // To avoid accidental cleanups from anywhere else
                     // remove objects from gDirectory and clone the list
                     out = pq->GetOutputList();
                     CleanGDirectory(out);
                     out = (TList *) out->Clone();
                     // Notify the GUI that the result arrived
                     QueryResultReady(TString::Format("%s:%s", pq->GetTitle(), pq->GetName()));
                  } else {
                     PDB(kGlobal,2)
                        Info("HandleInputMessage",
                             "%s: kPROOF_OUTPUTLIST: query result missing", sl->GetOrdinal());
                  }
               }
               if (out) {
                  out->SetOwner();
                  fPlayer->AddOutput(out); // Incorporate the list
                  SafeDelete(out);
               } else {
                  PDB(kGlobal,2)
                     Info("HandleInputMessage",
                          "%s: kPROOF_OUTPUTLIST: outputlist is empty", sl->GetOrdinal());
               }
            } else {
               Warning("HandleInputMessage",
                       "%s: kPROOF_OUTPUTLIST: player undefined!", sl->GetOrdinal());
            }
            // On clients at this point processing is over
            if (TestBit(TProof::kIsClient) && !IsLite())
               UpdateDialog();
         }
         break;

      case kPROOF_QUERYLIST:
         {
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_QUERYLIST: enter");
            (*mess) >> fOtherQueries >> fDrawQueries;
            if (fQueries) {
               fQueries->Delete();
               delete fQueries;
               fQueries = 0;
            }
            fQueries = (TList *) mess->ReadObject(TList::Class());
         }
         break;

      case kPROOF_RETRIEVE:
         {
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_RETRIEVE: enter");
            TQueryResult *pq =
               (TQueryResult *) mess->ReadObject(TQueryResult::Class());
            if (pq && fPlayer) {
               fPlayer->AddQueryResult(pq);
               // Notify the GUI that the result arrived
               QueryResultReady(TString::Format("%s:%s", pq->GetTitle(), pq->GetName()));
            } else {
               PDB(kGlobal,2)
                  Info("HandleInputMessage",
                       "kPROOF_RETRIEVE: query result missing or player undefined");
            }
         }
         break;

      case kPROOF_MAXQUERIES:
         {
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_MAXQUERIES: enter");
            Int_t max = 0;

            (*mess) >> max;
            Printf("Number of queries fully kept remotely: %d", max);
         }
         break;

      case kPROOF_SERVERSTARTED:
         {
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_SERVERSTARTED: enter");

            UInt_t tot = 0, done = 0;
            TString action;
            Bool_t st = kTRUE;

            (*mess) >> action >> tot >> done >> st;

            if (TestBit(TProof::kIsClient)) {
               if (tot) {
                  TString type = (action.Contains("submas")) ? "submasters"
                                                             : "workers";
                  Int_t frac = (Int_t) (done*100.)/tot;
                  char msg[512] = {0};
                  if (frac >= 100) {
                     snprintf(msg, 512, "%s: OK (%d %s)                 \n",
                             action.Data(),tot, type.Data());
                  } else {
                     snprintf(msg, 512, "%s: %d out of %d (%d %%)\r",
                             action.Data(), done, tot, frac);
                  }
                  if (fSync)
                     fprintf(stderr,"%s", msg);
                  else
                     NotifyLogMsg(msg, 0);
               }
               // Notify GUIs
               StartupMessage(action.Data(), st, (Int_t)done, (Int_t)tot);
            } else {

               // Just send the message one level up
               TMessage m(kPROOF_SERVERSTARTED);
               m << action << tot << done << st;
               gProofServ->GetSocket()->Send(m);
            }
         }
         break;

      case kPROOF_DATASET_STATUS:
         {
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_DATASET_STATUS: enter");

            UInt_t tot = 0, done = 0;
            TString action;
            Bool_t st = kTRUE;

            (*mess) >> action >> tot >> done >> st;

            if (TestBit(TProof::kIsClient)) {
               if (tot) {
                  TString type = "files";
                  Int_t frac = (Int_t) (done*100.)/tot;
                  char msg[512] = {0};
                  if (frac >= 100) {
                     snprintf(msg, 512, "%s: OK (%d %s)                 \n",
                             action.Data(),tot, type.Data());
                  } else {
                     snprintf(msg, 512, "%s: %d out of %d (%d %%)\r",
                             action.Data(), done, tot, frac);
                  }
                  if (fSync)
                     fprintf(stderr,"%s", msg);
                  else
                     NotifyLogMsg(msg, 0);
               }
               // Notify GUIs
               DataSetStatus(action.Data(), st, (Int_t)done, (Int_t)tot);
            } else {

               // Just send the message one level up
               TMessage m(kPROOF_DATASET_STATUS);
               m << action << tot << done << st;
               gProofServ->GetSocket()->Send(m);
            }
         }
         break;

      case kPROOF_STARTPROCESS:
         {
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_STARTPROCESS: enter");

            // For Proof-Lite this variable is the number of workers and is set
            // by the player
            if (!IsLite()) {
               fNotIdle = 1;
               fIsWaiting = kFALSE;
            }

            // Redirect the output, if needed
            fRedirLog = (fSync) ? fRedirLog : kTRUE;

            // The signal is used on masters by XrdProofdProtocol to catch
            // the start of processing; on clients it allows to update the
            // progress dialog
            if (!TestBit(TProof::kIsMaster)) {

               // This is the end of preparation
               fQuerySTW.Stop();
               fPrepTime = fQuerySTW.RealTime();
               PDB(kGlobal,2) Info("HandleInputMessage","Preparation time: %f s", fPrepTime);

               TString selec;
               Int_t dsz = -1;
               Long64_t first = -1, nent = -1;
               (*mess) >> selec >> dsz >> first >> nent;
               // Start or reset the progress dialog
               if (!gROOT->IsBatch()) {
                  if (fProgressDialog &&
                      !TestBit(kUsingSessionGui) && TestBit(kUseProgressDialog)) {
                     if (!fProgressDialogStarted) {
                        fProgressDialog->ExecPlugin(5, this,
                                                   selec.Data(), dsz, first, nent);
                        fProgressDialogStarted = kTRUE;
                     } else {
                        ResetProgressDialog(selec, dsz, first, nent);
                     }
                  }
                  ResetBit(kUsingSessionGui);
               }
            }
         }
         break;

      case kPROOF_ENDINIT:
         {
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_ENDINIT: enter");

            if (TestBit(TProof::kIsMaster)) {
               if (fPlayer)
                  fPlayer->SetInitTime();
            }
         }
         break;

      case kPROOF_SETIDLE:
         {
            PDB(kGlobal,2)
               Info("HandleInputMessage","kPROOF_SETIDLE from '%s': enter (%d)", sl->GetOrdinal(), fNotIdle);

            // The session is idle
            if (IsLite()) {
               if (fNotIdle > 0) {
                  fNotIdle--;
                  PDB(kGlobal,2)
                     Info("HandleInputMessage", "%s: got kPROOF_SETIDLE", sl->GetOrdinal());
               } else {
                  Warning("HandleInputMessage",
                          "%s: got kPROOF_SETIDLE but no running workers ! protocol error?",
                          sl->GetOrdinal());
               }
            } else {
               fNotIdle = 0;
               // Check if the query has been enqueued
               if ((mess->BufferSize() > mess->Length()))
                  (*mess) >> fIsWaiting;
            }
         }
         break;

      case kPROOF_QUERYSUBMITTED:
         {
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_QUERYSUBMITTED: enter");

            // We have received the sequential number
            (*mess) >> fSeqNum;
            Bool_t sync = fSync;
            if ((mess->BufferSize() > mess->Length()))
               (*mess) >> sync;
            if (sync !=  fSync && fSync) {
               // The server required to switch to asynchronous mode
               Activate();
               fSync = kFALSE;
            }
            DisableGoAsyn();
            // Check if the query has been enqueued
            fIsWaiting = kTRUE;
            // For Proof-Lite this variable is the number of workers and is set by the player
            if (!IsLite())
               fNotIdle = 1;

            rc = 1;
         }
         break;

      case kPROOF_SESSIONTAG:
         {
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_SESSIONTAG: enter");

            // We have received the unique tag and save it as name of this object
            TString stag;
            (*mess) >> stag;
            SetName(stag);
            // In the TSlave object
            sl->SetSessionTag(stag);
            // Server may have also sent the group
            if ((mess->BufferSize() > mess->Length()))
               (*mess) >> fGroup;
            // Server may have also sent the user
            if ((mess->BufferSize() > mess->Length())) {
               TString usr;
               (*mess) >> usr;
               if (!usr.IsNull()) fUrl.SetUser(usr.Data());
            }
         }
         break;

      case kPROOF_FEEDBACK:
         {
            PDB(kGlobal,2)
               Info("HandleInputMessage","kPROOF_FEEDBACK: enter");
            TList *out = (TList *) mess->ReadObject(TList::Class());
            out->SetOwner();
            if (fPlayer)
               fPlayer->StoreFeedback(sl, out); // Adopts the list
            else
               // Not yet ready: stop collect asap
               rc = 1;
         }
         break;

      case kPROOF_AUTOBIN:
         {
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_AUTOBIN: enter");

            TString name;
            Double_t xmin, xmax, ymin, ymax, zmin, zmax;

            (*mess) >> name >> xmin >> xmax >> ymin >> ymax >> zmin >> zmax;

            if (fPlayer) fPlayer->UpdateAutoBin(name,xmin,xmax,ymin,ymax,zmin,zmax);

            TMessage answ(kPROOF_AUTOBIN);

            answ << name << xmin << xmax << ymin << ymax << zmin << zmax;

            s->Send(answ);
         }
         break;

      case kPROOF_PROGRESS:
         {
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_PROGRESS: enter");

            if (GetRemoteProtocol() > 25) {
               // New format
               TProofProgressInfo *pi = 0;
               (*mess) >> pi;
               fPlayer->Progress(sl,pi);
            } else if (GetRemoteProtocol() > 11) {
               Long64_t total, processed, bytesread;
               Float_t initTime, procTime, evtrti, mbrti;
               (*mess) >> total >> processed >> bytesread
                     >> initTime >> procTime
                     >> evtrti >> mbrti;
               if (fPlayer)
                  fPlayer->Progress(sl, total, processed, bytesread,
                                    initTime, procTime, evtrti, mbrti);

            } else {
               // Old format
               Long64_t total, processed;
               (*mess) >> total >> processed;
               if (fPlayer)
                  fPlayer->Progress(sl, total, processed);
            }
         }
         break;

      case kPROOF_STOPPROCESS:
         {
            // This message is sent from a worker that finished processing.
            // We determine whether it was asked to finish by the
            // packetizer or stopped during processing a packet
            // (by TProof::RemoveWorkers() or by an external signal).
            // In the later case call packetizer->MarkBad.
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_STOPPROCESS: enter");

            Long64_t events = 0;
            Bool_t abort = kFALSE;
            TProofProgressStatus *status = 0;

            if ((mess->BufferSize() > mess->Length()) && (fProtocol > 18)) {
               (*mess) >> status >> abort;
            } else if ((mess->BufferSize() > mess->Length()) && (fProtocol > 8)) {
               (*mess) >> events >> abort;
            } else {
               (*mess) >> events;
            }
            if (fPlayer) {
               if (fProtocol > 18) {
                  TList *listOfMissingFiles = 0;
                  if (!(listOfMissingFiles = (TList *)GetOutput("MissingFiles"))) {
                     listOfMissingFiles = new TList();
                     listOfMissingFiles->SetName("MissingFiles");
                     if (fPlayer)
                        fPlayer->AddOutputObject(listOfMissingFiles);
                  }
                  if (fPlayer->GetPacketizer()) {
                     Int_t ret =
                        fPlayer->GetPacketizer()->AddProcessed(sl, status, 0, &listOfMissingFiles);
                     if (ret > 0)
                        fPlayer->GetPacketizer()->MarkBad(sl, status, &listOfMissingFiles);
                     // This object is now owned by the packetizer
                     status = 0;
                  }
                  if (status) fPlayer->AddEventsProcessed(status->GetEntries());
               } else {
                  fPlayer->AddEventsProcessed(events);
               }
            }
            SafeDelete(status);
            if (!TestBit(TProof::kIsMaster))
               Emit("StopProcess(Bool_t)", abort);
            break;
         }

      case kPROOF_SUBMERGER:
         {
            PDB(kGlobal,2) Info("HandleInputMessage", "kPROOF_SUBMERGER: enter");
            HandleSubmerger(mess, sl);
         }
         break;

      case kPROOF_GETSLAVEINFO:
         {
            PDB(kGlobal,2) Info("HandleInputMessage", "kPROOF_GETSLAVEINFO: enter");

            Bool_t active = (GetListOfActiveSlaves()->FindObject(sl) != 0);
            Bool_t bad = (GetListOfBadSlaves()->FindObject(sl) != 0);
            TList* tmpinfo = 0;
            (*mess) >> tmpinfo;
            if (tmpinfo == 0) {
               Error("HandleInputMessage", "kPROOF_GETSLAVEINFO: no list received!");
            } else {
               tmpinfo->SetOwner(kFALSE);
               Int_t nentries = tmpinfo->GetSize();
               for (Int_t i=0; i<nentries; i++) {
                  TSlaveInfo* slinfo =
                     dynamic_cast<TSlaveInfo*>(tmpinfo->At(i));
                  if (slinfo) {
                     // If PROOF-Lite
                     if (IsLite()) slinfo->fHostName = gSystem->HostName();
                     // Check if we have already a instance for this worker
                     TIter nxw(fSlaveInfo);
                     TSlaveInfo *ourwi = 0;
                     while ((ourwi = (TSlaveInfo *)nxw())) {
                        if (!strcmp(ourwi->GetOrdinal(), slinfo->GetOrdinal())) {
                           ourwi->SetSysInfo(slinfo->GetSysInfo());
                           ourwi->fHostName = slinfo->GetName();
                           if (slinfo->GetDataDir() && (strlen(slinfo->GetDataDir()) > 0))
                           ourwi->fDataDir = slinfo->GetDataDir();
                           break;
                        }
                     }
                     if (!ourwi) {
                        fSlaveInfo->Add(slinfo);
                     } else {
                        slinfo = ourwi;
                     }
                     if (slinfo->fStatus != TSlaveInfo::kBad) {
                        if (!active) slinfo->SetStatus(TSlaveInfo::kNotActive);
                        if (bad) slinfo->SetStatus(TSlaveInfo::kBad);
                     }
                     if (sl->GetMsd() && (strlen(sl->GetMsd()) > 0))
                        slinfo->fMsd = sl->GetMsd();
                  }
               }
               delete tmpinfo;
               rc = 1;
            }
         }
         break;

      case kPROOF_VALIDATE_DSET:
         {
            PDB(kGlobal,2)
               Info("HandleInputMessage", "kPROOF_VALIDATE_DSET: enter");
            TDSet* dset = 0;
            (*mess) >> dset;
            if (!fDSet)
               Error("HandleInputMessage", "kPROOF_VALIDATE_DSET: fDSet not set");
            else
               fDSet->Validate(dset);
            delete dset;
         }
         break;

      case kPROOF_DATA_READY:
         {
            PDB(kGlobal,2) Info("HandleInputMessage", "kPROOF_DATA_READY: enter");
            Bool_t dataready = kFALSE;
            Long64_t totalbytes, bytesready;
            (*mess) >> dataready >> totalbytes >> bytesready;
            fTotalBytes += totalbytes;
            fBytesReady += bytesready;
            if (dataready == kFALSE) fDataReady = dataready;
         }
         break;

      case kPROOF_PING:
         // do nothing (ping is already acknowledged)
         break;

      case kPROOF_MESSAGE:
         {
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_MESSAGE: enter");

            // We have received the unique tag and save it as name of this object
            TString msg;
            (*mess) >> msg;
            Bool_t lfeed = kTRUE;
            if ((mess->BufferSize() > mess->Length()))
               (*mess) >> lfeed;

            if (TestBit(TProof::kIsClient)) {

               if (fSync) {
                  // Notify locally
                  fprintf(stderr,"%s%c", msg.Data(), (lfeed ? '\n' : '\r'));
               } else {
                  // Notify locally taking care of redirection, windows logs, ...
                  NotifyLogMsg(msg, (lfeed ? "\n" : "\r"));
               }
            } else {

               // The message is logged for debugging purposes.
               fprintf(stderr,"%s%c", msg.Data(), (lfeed ? '\n' : '\r'));
               if (gProofServ) {
                  // We hide it during normal operations
                  gProofServ->FlushLogFile();

                  // And send the message one level up
                  gProofServ->SendAsynMessage(msg, lfeed);
               }
            }
         }
         break;

      case kPROOF_VERSARCHCOMP:
         {
            TString vac;
            (*mess) >> vac;
            PDB(kGlobal,2) Info("HandleInputMessage","kPROOF_VERSARCHCOMP: %s", vac.Data());
            Int_t from = 0;
            TString vers, archcomp;
            if (vac.Tokenize(vers, from, "|"))
               vac.Tokenize(archcomp, from, "|");
            sl->SetArchCompiler(archcomp);
            vers.ReplaceAll(":","|");
            sl->SetROOTVersion(vers);
         }
         break;

      default:
         {
            Error("HandleInputMessage", "unknown command received from '%s' (what = %d)",
                                        sl->GetOrdinal(), what);
         }
         break;
   }

   // Cleanup
   if (delete_mess)
      delete mess;

   // We are done successfully
   return rc;
}

//______________________________________________________________________________
void TProof::HandleSubmerger(TMessage *mess, TSlave *sl)
{
   // Process a message of type kPROOF_SUBMERGER

   // Message sub-type
   Int_t type = 0;
   (*mess) >> type;
   TSocket *s = sl->GetSocket();

   switch (type) {
      case kOutputSent:
         {
            if (IsEndMaster()) {
               Int_t  merger_id = -1;
               (*mess) >> merger_id;

               PDB(kSubmerger, 2)
                  Info("HandleSubmerger", "kOutputSent: Worker %s:%d:%s had sent its output to merger #%d",
                                          sl->GetName(), sl->GetPort(), sl->GetOrdinal(), merger_id);

               if (!fMergers || fMergers->GetSize() <= merger_id) {
                  Error("HandleSubmerger", "kOutputSize: #%d not in list ", merger_id);
                  break;
               }
               TMergerInfo * mi = (TMergerInfo *) fMergers->At(merger_id);
               mi->SetMergedWorker();
               if (mi->AreAllWorkersMerged()) {
                  mi->Deactivate();
                  if (GetActiveMergersCount() == 0) {
                     fMergers->Clear();
                     delete fMergers;
                     fMergersSet = kFALSE;
                     fMergersCount = -1;
                     fLastAssignedMerger = 0;
                     PDB(kSubmerger, 2) Info("HandleSubmerger", "all mergers removed ... ");
                  }
               }
            } else {
               PDB(kSubmerger, 2) Error("HandleSubmerger","kOutputSent: received not on endmaster!");
            }
         }
         break;

      case kMergerDown:
         {
            Int_t  merger_id = -1;
            (*mess) >> merger_id;

            PDB(kSubmerger, 2) Info("HandleSubmerger", "kMergerDown: #%d ", merger_id);

            if (!fMergers || fMergers->GetSize() <= merger_id) {
               Error("HandleSubmerger", "kMergerDown: #%d not in list ", merger_id);
               break;
            }

            TMergerInfo * mi = (TMergerInfo *) fMergers->At(merger_id);
            if (!mi->IsActive()) {
               break;
            } else {
               mi->Deactivate();
            }

            // Stop the invalid merger in the case it is still listening
            TMessage stop(kPROOF_SUBMERGER);
            stop << Int_t(kStopMerging);
            stop <<  0;
            s->Send(stop);

            // Ask for results from merger (only original results from this node as worker are returned)
            AskForOutput(mi->GetMerger());

            // Ask for results from all workers assigned to this merger
            TIter nxo(mi->GetWorkers());
            TObject * o = 0;
            while ((o = nxo())) {
               AskForOutput((TSlave *)o);
            }
            PDB(kSubmerger, 2) Info("HandleSubmerger", "kMergerDown:%d: exit", merger_id);
         }
         break;

      case kOutputSize:
         {
            if (IsEndMaster()) {
               PDB(kSubmerger, 2)
                  Info("HandleSubmerger", "worker %s reported as finished ", sl->GetOrdinal());

               const char *prefix = gProofServ ? gProofServ->GetPrefix() : "Lite-0";
               if (!fFinalizationRunning) {
                  Info("HandleSubmerger", "finalization on %s started ...", prefix);
                  fFinalizationRunning = kTRUE;
               }

               Int_t  output_size = 0;
               Int_t  merging_port = 0;
               (*mess) >> output_size >> merging_port;

               PDB(kSubmerger, 2) Info("HandleSubmerger",
                                       "kOutputSize: Worker %s:%d:%s reports %d output objects (+ available port %d)",
                                       sl->GetName(), sl->GetPort(), sl->GetOrdinal(), output_size, merging_port);
               TString msg;
               if (!fMergersSet) {

                  Int_t activeWorkers = fCurrentMonitor ? fCurrentMonitor->GetActive() : GetNumberOfActiveSlaves();

                  // First pass - setting number of mergers according to user or dynamically
                  fMergersCount = -1; // No mergers used if not set by user
                  TParameter<Int_t> *mc = dynamic_cast<TParameter<Int_t> *>(GetParameter("PROOF_UseMergers"));
                  if (mc) fMergersCount = mc->GetVal(); // Value set by user
                  TParameter<Int_t> *mh = dynamic_cast<TParameter<Int_t> *>(GetParameter("PROOF_MergersByHost"));
                  if (mh) fMergersByHost = (mh->GetVal() != 0) ? kTRUE : kFALSE; // Assign submergers by hostname

                  // Mergers count specified by user but not valid
                  if (fMergersCount < 0 || (fMergersCount > (activeWorkers/2) )) {
                     msg.Form("%s: Invalid request: cannot start %d mergers for %d workers",
                              prefix, fMergersCount, activeWorkers);
                     if (gProofServ)
                        gProofServ->SendAsynMessage(msg);
                     else
                        Printf("%s",msg.Data());
                     fMergersCount = 0;
                  }
                  // Mergers count will be set dynamically
                  if ((fMergersCount == 0) && (!fMergersByHost)) {
                     if (activeWorkers > 1) {
                        fMergersCount = TMath::Nint(TMath::Sqrt(activeWorkers));
                        if (activeWorkers / fMergersCount < 2)
                           fMergersCount = (Int_t) TMath::Sqrt(activeWorkers);
                     }
                     if (fMergersCount > 1)
                        msg.Form("%s: Number of mergers set dynamically to %d (for %d workers)",
                                 prefix, fMergersCount, activeWorkers);
                     else {
                        msg.Form("%s: No mergers will be used for %d workers",
                                 prefix, activeWorkers);
                        fMergersCount = -1;
                     }
                     if (gProofServ)
                        gProofServ->SendAsynMessage(msg);
                     else
                        Printf("%s",msg.Data());
                  } else if (fMergersByHost) {
                     // We force mergers at host level to minimize network traffic
                     if (activeWorkers > 1) {
                        fMergersCount = 0;
                        THashList hosts;
                        TIter nxwk(fSlaves);
                        TObject *wrk = 0;
                        while ((wrk = nxwk())) {
                           if (!hosts.FindObject(wrk->GetName())) {
                              hosts.Add(new TObjString(wrk->GetName()));
                              fMergersCount++;
                           }
                        }
                     }
                     if (fMergersCount > 1)
                        msg.Form("%s: Number of mergers set to %d (for %d workers), one for each slave host",
                                 prefix, fMergersCount, activeWorkers);
                     else {
                        msg.Form("%s: No mergers will be used for %d workers",
                                 prefix, activeWorkers);
                        fMergersCount = -1;
                     }
                     if (gProofServ)
                        gProofServ->SendAsynMessage(msg);
                     else
                        Printf("%s",msg.Data());
                  } else {
                     msg.Form("%s: Number of mergers set by user to %d (for %d workers)",
                              prefix, fMergersCount, activeWorkers);
                     if (gProofServ)
                        gProofServ->SendAsynMessage(msg);
                     else
                        Printf("%s",msg.Data());
                  }

                  // We started merging; we call it here because fMergersCount is still the original number
                  // and can be saved internally
                  fPlayer->SetMerging(kTRUE);

                  // Update merger counters (new workers are not yet active)
                  fMergePrg.SetNWrks(fMergersCount);

                  if (fMergersCount > 0) {

                     fMergers = new TList();
                     fLastAssignedMerger = 0;
                     // Total number of workers, which will not act as mergers ('pure workers')
                     fWorkersToMerge = (activeWorkers - fMergersCount);
                     // Establish the first merger
                     if (!CreateMerger(sl, merging_port)) {
                        // Cannot establish first merger
                        AskForOutput(sl);
                        fWorkersToMerge--;
                        fMergersCount--;
                     }
                     if (IsLite()) fMergePrg.SetNWrks(fMergersCount);
                  } else {
                     AskForOutput(sl);
                  }
                  fMergersSet = kTRUE;
               } else {
                  // Multiple pass
                  if (fMergersCount == -1) {
                     // No mergers. Workers send their outputs directly to master
                     AskForOutput(sl);
                  } else {
                     if ((fRedirectNext > 0 ) && (!fMergersByHost)) {
                        RedirectWorker(s, sl, output_size);
                        fRedirectNext--;
                     } else {
                        Bool_t newMerger = kTRUE;
                        if (fMergersByHost) {
                           TIter nxmg(fMergers);
                           TMergerInfo *mgi = 0;
                           while ((mgi = (TMergerInfo *) nxmg())) {
                              if (!strcmp(sl->GetName(), mgi->GetMerger()->GetName())) {
                                 newMerger = kFALSE;
                                 break;
                              }
                           }
                        }
                        if ((fMergersCount > fMergers->GetSize()) && newMerger) {
                           // Still not enough mergers established
                           if (!CreateMerger(sl, merging_port)) {
                              // Cannot establish a merger
                              AskForOutput(sl);
                              fWorkersToMerge--;
                              fMergersCount--;
                           }
                        } else
                           RedirectWorker(s, sl, output_size);
                     }
                  }
               }
            } else {
               Error("HandleSubMerger","kOutputSize received not on endmaster!");
            }
         }
      break;
   }
}

//______________________________________________________________________________
void TProof::RedirectWorker(TSocket *s, TSlave * sl, Int_t output_size)
{
   // Redirect output of worker sl to some merger

   Int_t merger_id = -1;

   if (fMergersByHost) {
      for (Int_t i = 0; i < fMergers->GetSize(); i++) {
         TMergerInfo *mgi = (TMergerInfo *)fMergers->At(i);
         if (!strcmp(sl->GetName(), mgi->GetMerger()->GetName())) {
            merger_id = i;
            break;
         }
      }
   } else {
      merger_id  = FindNextFreeMerger();
   }

   if (merger_id == -1) {
      // No free merger (probably it had crashed before)
      AskForOutput(sl);
   } else {
      TMessage sendoutput(kPROOF_SUBMERGER);
      sendoutput << Int_t(kSendOutput);
      PDB(kSubmerger, 2)
         Info("RedirectWorker", "redirecting worker %s to merger %d", sl->GetOrdinal(), merger_id);

       PDB(kSubmerger, 2) Info("RedirectWorker", "redirecting output to merger #%d",  merger_id);
       if (!fMergers || fMergers->GetSize() <= merger_id) {
          Error("RedirectWorker", "#%d not in list ", merger_id);
          return;
       }
       TMergerInfo * mi = (TMergerInfo *) fMergers->At(merger_id);

       TString hname = (IsLite()) ? "localhost" : mi->GetMerger()->GetName();
       sendoutput <<  merger_id;
       sendoutput << hname;
       sendoutput << mi->GetPort();
       s->Send(sendoutput);
       mi->AddMergedObjects(output_size);
       mi->AddWorker(sl);
   }
}

//______________________________________________________________________________
Int_t TProof::FindNextFreeMerger()
{
   // Return a merger, which is both active and still accepts some workers to be
   // assigned to it. It works on the 'round-robin' basis.

   while (fLastAssignedMerger < fMergers->GetSize() &&
         (!((TMergerInfo*)fMergers->At(fLastAssignedMerger))->IsActive() ||
           ((TMergerInfo*)fMergers->At(fLastAssignedMerger))->AreAllWorkersAssigned())) {
      fLastAssignedMerger++;
   }

   if (fLastAssignedMerger == fMergers->GetSize()) {
      fLastAssignedMerger = 0;
   } else {
      return fLastAssignedMerger++;
   }

   while (fLastAssignedMerger < fMergers->GetSize() &&
         (!((TMergerInfo*)fMergers->At(fLastAssignedMerger))->IsActive() ||
           ((TMergerInfo*)fMergers->At(fLastAssignedMerger))->AreAllWorkersAssigned())) {
      fLastAssignedMerger++;
   }

   if (fLastAssignedMerger == fMergers->GetSize()) {
      return -1;
   } else {
      return fLastAssignedMerger++;
   }
}

//______________________________________________________________________________
void TProof::AskForOutput(TSlave *sl)
{
   // Master asks for output from worker sl

   TMessage sendoutput(kPROOF_SUBMERGER);
   sendoutput << Int_t(kSendOutput);

   PDB(kSubmerger, 2) Info("AskForOutput",
                           "worker %s was asked to send its output to master",
                            sl->GetOrdinal());

   sendoutput << -1;
   sendoutput << TString("master");
   sendoutput << -1;
   sl->GetSocket()->Send(sendoutput);
   if (IsLite()) fMergePrg.IncreaseNWrks();
}

//______________________________________________________________________________
void TProof::UpdateDialog()
{
   // Final update of the progress dialog

   if (!fPlayer) return;

   // Handle abort ...
   if (fPlayer->GetExitStatus() == TVirtualProofPlayer::kAborted) {
      if (fSync)
         Info("UpdateDialog",
              "processing was aborted - %lld events processed",
              fPlayer->GetEventsProcessed());

      if (GetRemoteProtocol() > 11) {
         // New format
         Progress(-1, fPlayer->GetEventsProcessed(), -1, -1., -1., -1., -1.);
      } else {
         Progress(-1, fPlayer->GetEventsProcessed());
      }
      Emit("StopProcess(Bool_t)", kTRUE);
   }

   // Handle stop ...
   if (fPlayer->GetExitStatus() == TVirtualProofPlayer::kStopped) {
      if (fSync)
         Info("UpdateDialog",
              "processing was stopped - %lld events processed",
              fPlayer->GetEventsProcessed());

      if (GetRemoteProtocol() > 25) {
         // New format
         Progress(-1, fPlayer->GetEventsProcessed(), -1, -1., -1., -1., -1., -1, -1, -1.);
      } else if (GetRemoteProtocol() > 11) {
         Progress(-1, fPlayer->GetEventsProcessed(), -1, -1., -1., -1., -1.);
      } else {
         Progress(-1, fPlayer->GetEventsProcessed());
      }
      Emit("StopProcess(Bool_t)", kFALSE);
   }

   // Final update of the dialog box
   if (GetRemoteProtocol() > 25) {
      // New format
      EmitVA("Progress(Long64_t,Long64_t,Long64_t,Float_t,Float_t,Float_t,Float_t,Int_t,Int_t,Float_t)",
              10, (Long64_t)(-1), (Long64_t)(-1), (Long64_t)(-1),(Float_t)(-1.),(Float_t)(-1.),
                  (Float_t)(-1.),(Float_t)(-1.),(Int_t)(-1),(Int_t)(-1),(Float_t)(-1.));
   } else if (GetRemoteProtocol() > 11) {
      // New format
      EmitVA("Progress(Long64_t,Long64_t,Long64_t,Float_t,Float_t,Float_t,Float_t)",
               7, (Long64_t)(-1), (Long64_t)(-1), (Long64_t)(-1),
                  (Float_t)(-1.),(Float_t)(-1.),(Float_t)(-1.),(Float_t)(-1.));
   } else {
      EmitVA("Progress(Long64_t,Long64_t)", 2, (Long64_t)(-1), (Long64_t)(-1));
   }
}

//______________________________________________________________________________
void TProof::ActivateAsyncInput()
{
   // Activate the a-sync input handler.

   TIter next(fSlaves);
   TSlave *sl;

   while ((sl = (TSlave*) next()))
      if (sl->GetInputHandler())
         sl->GetInputHandler()->Add();
}

//______________________________________________________________________________
void TProof::DeActivateAsyncInput()
{
   // De-activate a-sync input handler.

   TIter next(fSlaves);
   TSlave *sl;

   while ((sl = (TSlave*) next()))
      if (sl->GetInputHandler())
         sl->GetInputHandler()->Remove();
}

//______________________________________________________________________________
Int_t TProof::GetActiveMergersCount()
{
   // Get the active mergers count

   if (!fMergers) return 0;

   Int_t active_mergers = 0;

   TIter mergers(fMergers);
   TMergerInfo *mi = 0;
   while ((mi = (TMergerInfo *)mergers())) {
      if (mi->IsActive()) active_mergers++;
   }

   return active_mergers;
}

//______________________________________________________________________________
Bool_t TProof::CreateMerger(TSlave *sl, Int_t port)
{
   // Create a new merger

   PDB(kSubmerger, 2)
      Info("CreateMerger", "worker %s will be merger ", sl->GetOrdinal());

   PDB(kSubmerger, 2) Info("CreateMerger","Begin");

   if (port <= 0) {
      PDB(kSubmerger,2)
         Info("CreateMerger", "cannot create merger on port %d - exit", port);
      return kFALSE;
   }

   Int_t workers = -1;
   if (!fMergersByHost) {
      Int_t mergersToCreate = fMergersCount - fMergers->GetSize();
      // Number of pure workers, which are not simply divisible by mergers
      Int_t rest = fWorkersToMerge % mergersToCreate;
      // We add one more worker for each of the first 'rest' mergers being established
      if (rest > 0 && fMergers->GetSize() < rest) {
         rest = 1;
      } else {
         rest = 0;
      }
      workers = (fWorkersToMerge / mergersToCreate) + rest;
   } else {
      Int_t workersOnHost = 0;
      for (Int_t i = 0; i < fActiveSlaves->GetSize(); i++) {
         if(!strcmp(sl->GetName(), fActiveSlaves->At(i)->GetName())) workersOnHost++;
      }
      workers = workersOnHost - 1;
   }

   TString msg;
   msg.Form("worker %s on host %s will be merger for %d additional workers", sl->GetOrdinal(), sl->GetName(), workers);

   if (gProofServ) {
      gProofServ->SendAsynMessage(msg);
   } else {
      Printf("%s",msg.Data());
   }
   TMergerInfo * merger = new TMergerInfo(sl, port, workers);

   TMessage bemerger(kPROOF_SUBMERGER);
   bemerger << Int_t(kBeMerger);
   bemerger <<  fMergers->GetSize();
   bemerger <<  workers;
   sl->GetSocket()->Send(bemerger);

   PDB(kSubmerger,2) Info("CreateMerger",
                          "merger #%d (port: %d) for %d workers started",
                          fMergers->GetSize(), port, workers);

   fMergers->Add(merger);
   fWorkersToMerge = fWorkersToMerge - workers;

   fRedirectNext = workers / 2;

   PDB(kSubmerger, 2) Info("CreateMerger", "exit");
   return kTRUE;
}

//______________________________________________________________________________
void TProof::MarkBad(TSlave *wrk, const char *reason)
{
   // Add a bad slave server to the bad slave list and remove it from
   // the active list and from the two monitor objects. Assume that the work
   // done by this worker was lost and ask packerizer to reassign it.

   R__LOCKGUARD2(fCloseMutex);


   // We may have been invalidated in the meanwhile: nothing to do in such a case
   if (!IsValid()) return;

   if (!wrk) {
      Error("MarkBad", "worker instance undefined: protocol error? ");
      return;
   }

   // Local URL
   static TString thisurl;
   if (thisurl.IsNull()) {
      if (IsMaster()) {
         Int_t port = gEnv->GetValue("ProofServ.XpdPort",-1);
         thisurl = TUrl(gSystem->HostName()).GetHostFQDN();
         if (port > 0) thisurl += TString::Format(":%d", port);
      } else {
         thisurl.Form("%s@%s:%d", fUrl.GetUser(), fUrl.GetHost(), fUrl.GetPort());
      }
   }

   if (!reason || (strcmp(reason, kPROOF_TerminateWorker) && strcmp(reason, kPROOF_WorkerIdleTO))) {
      // Message for notification
      const char *mastertype = (gProofServ && gProofServ->IsTopMaster()) ? "top master" : "master";
      TString src = IsMaster() ? Form("%s at %s", mastertype, thisurl.Data()) : "local session";
      TString msg;
      msg.Form("\n +++ Message from %s : marking %s:%d (%s) as bad\n +++ Reason: %s",
               src.Data(), wrk->GetName(), wrk->GetPort(), wrk->GetOrdinal(),
               (reason && strlen(reason)) ? reason : "unknown");
      Info("MarkBad", "%s", msg.Data());
      // Notify one level up, if the case
      // Add some hint for diagnostics
      if (gProofServ) {
         msg += TString::Format("\n\n +++ Most likely your code crashed on worker %s at %s:%d.\n",
                     wrk->GetOrdinal(), wrk->GetName(), wrk->GetPort());
      } else {
         msg += TString::Format("\n\n +++ Most likely your code crashed\n");
      }
      msg += TString::Format(" +++ Please check the session logs for error messages either using\n");
      msg += TString::Format(" +++ the 'Show logs' button or executing\n");
      msg += TString::Format(" +++\n");
      if (gProofServ) {
         msg += TString::Format(" +++ root [] TProof::Mgr(\"%s\")->GetSessionLogs()->"
                                "Display(\"%s\",0)\n\n", thisurl.Data(), wrk->GetOrdinal());
         gProofServ->SendAsynMessage(msg, kTRUE);
      } else {
         msg += TString::Format(" +++ root [] TProof::Mgr(\"%s\")->GetSessionLogs()->"
                                "Display(\"*\")\n\n", thisurl.Data());
         Printf("%s", msg.Data());
      }
   } else if (reason) {
      if (gDebug > 0 && strcmp(reason, kPROOF_WorkerIdleTO)) {
         Info("MarkBad", "worker %s at %s:%d asked to terminate",
                         wrk->GetOrdinal(), wrk->GetName(), wrk->GetPort());
      }
   }

   if (IsMaster() && reason) {
      if (strcmp(reason, kPROOF_TerminateWorker)) {
         // if the reason was not a planned termination
         TList *listOfMissingFiles = 0;
         if (!(listOfMissingFiles = (TList *)GetOutput("MissingFiles"))) {
            listOfMissingFiles = new TList();
            listOfMissingFiles->SetName("MissingFiles");
            if (fPlayer)
               fPlayer->AddOutputObject(listOfMissingFiles);
         }
         // If a query is being processed, assume that the work done by
         // the worker was lost and needs to be reassigned.
         TVirtualPacketizer *packetizer = fPlayer ? fPlayer->GetPacketizer() : 0;
         if (packetizer) {
            // the worker was lost so do resubmit the packets
            packetizer->MarkBad(wrk, 0, &listOfMissingFiles);
         }
      } else {
         // Tell the coordinator that we are gone
         if (gProofServ) {
            TString ord(wrk->GetOrdinal());
            Int_t id = ord.Last('.');
            if (id != kNPOS) ord.Remove(0, id+1);
            gProofServ->ReleaseWorker(ord.Data());
         }
      }
   } else if (TestBit(TProof::kIsClient) && reason && !strcmp(reason, kPROOF_WorkerIdleTO)) {
      // We are invalid after this
      fValid = kFALSE;
   }

   fActiveSlaves->Remove(wrk);
   FindUniqueSlaves();

   fAllMonitor->Remove(wrk->GetSocket());
   fActiveMonitor->Remove(wrk->GetSocket());

   fSendGroupView = kTRUE;

   if (IsMaster()) {
      if (reason && !strcmp(reason, kPROOF_TerminateWorker)) {
         // if the reason was a planned termination then delete the worker and
         // remove it from all the lists
         fSlaves->Remove(wrk);
         fBadSlaves->Remove(wrk);
         fActiveSlaves->Remove(wrk);
         fInactiveSlaves->Remove(wrk);
         fUniqueSlaves->Remove(wrk);
         fAllUniqueSlaves->Remove(wrk);
         fNonUniqueMasters->Remove(wrk);

         // we add it to the list of terminated slave infos instead, so that it
         // stays available in the .workers persistent file
         TSlaveInfo *si = new TSlaveInfo(
            wrk->GetOrdinal(),
            Form("%s@%s:%d", wrk->GetUser(), wrk->GetName(), wrk->GetPort()),
            0, "", wrk->GetWorkDir());
         if (!fTerminatedSlaveInfos->Contains(si)) fTerminatedSlaveInfos->Add(si);
         else delete si;

         delete wrk;
      } else {
         fBadSlaves->Add(wrk);
         fActiveSlaves->Remove(wrk);
         fUniqueSlaves->Remove(wrk);
         fAllUniqueSlaves->Remove(wrk);
         fNonUniqueMasters->Remove(wrk);
         if (fCurrentMonitor) fCurrentMonitor->DeActivate(wrk->GetSocket());
         wrk->Close();
         // Update the mergers count, if needed
         if (fMergersSet) {
            Int_t mergersCount = -1;
            TParameter<Int_t> *mc = dynamic_cast<TParameter<Int_t> *>(GetParameter("PROOF_UseMergers"));
            if (mc) mergersCount = mc->GetVal(); // Value set by user
            // Mergers count is set dynamically: recalculate it
            if (mergersCount == 0) {
               Int_t activeWorkers = fCurrentMonitor ? fCurrentMonitor->GetActive() : GetNumberOfActiveSlaves();
               if (activeWorkers > 1) {
                  fMergersCount = TMath::Nint(TMath::Sqrt(activeWorkers));
                  if (activeWorkers / fMergersCount < 2)
                     fMergersCount = (Int_t) TMath::Sqrt(activeWorkers);
               }
            }
         }
      }

      // Update session workers files
      SaveWorkerInfo();
   } else {
      // On clients the proof session should be removed from the lists
      // and deleted, since it is not valid anymore
      fSlaves->Remove(wrk);
      if (fManager)
         fManager->DiscardSession(this);
   }
}

//______________________________________________________________________________
void TProof::MarkBad(TSocket *s, const char *reason)
{
   // Add slave with socket s to the bad slave list and remove if from
   // the active list and from the two monitor objects.

   R__LOCKGUARD2(fCloseMutex);

   // We may have been invalidated in the meanwhile: nothing to do in such a case
   if (!IsValid()) return;

   TSlave *wrk = FindSlave(s);
   MarkBad(wrk, reason);
}

//______________________________________________________________________________
void TProof::TerminateWorker(TSlave *wrk)
{
   // Ask an active worker 'wrk' to terminate, i.e. to shutdown

   if (!wrk) {
      Warning("TerminateWorker", "worker instance undefined: protocol error? ");
      return;
   }

   // Send stop message
   if (wrk->GetSocket() && wrk->GetSocket()->IsValid()) {
      TMessage mess(kPROOF_STOP);
      wrk->GetSocket()->Send(mess);
   } else {
      if (gDebug > 0)
         Info("TerminateWorker", "connection to worker is already down: cannot"
                                 " send termination message");
   }

   // This is a bad worker from now on
   MarkBad(wrk, kPROOF_TerminateWorker);
}

//______________________________________________________________________________
void TProof::TerminateWorker(const char *ord)
{
   // Ask an active worker 'ord' to terminate, i.e. to shutdown

   if (ord && strlen(ord) > 0) {
      Bool_t all = (ord[0] == '*') ? kTRUE : kFALSE;
      if (IsMaster()) {
         TIter nxw(fSlaves);
         TSlave *wrk = 0;
         while ((wrk = (TSlave *)nxw())) {
            if (all || !strcmp(wrk->GetOrdinal(), ord)) {
               TerminateWorker(wrk);
               if (!all) break;
            }
         }
      } else {
         TMessage mess(kPROOF_STOP);
         mess << TString(ord);
         Broadcast(mess);
      }
   }
}

//______________________________________________________________________________
Int_t TProof::Ping()
{
   // Ping PROOF. Returns 1 if master server responded.

   return Ping(kActive);
}

//______________________________________________________________________________
Int_t TProof::Ping(ESlaves list)
{
   // Ping PROOF slaves. Returns the number of slaves that responded.

   TList *slaves = 0;
   if (list == kAll)       slaves = fSlaves;
   if (list == kActive)    slaves = fActiveSlaves;
   if (list == kUnique)    slaves = fUniqueSlaves;
   if (list == kAllUnique) slaves = fAllUniqueSlaves;

   if (slaves->GetSize() == 0) return 0;

   int   nsent = 0;
   TIter next(slaves);

   TSlave *sl;
   while ((sl = (TSlave *)next())) {
      if (sl->IsValid()) {
         if (sl->Ping() == -1) {
            MarkBad(sl, "ping unsuccessful");
         } else {
            nsent++;
         }
      }
   }

   return nsent;
}

//______________________________________________________________________________
void TProof::Touch()
{
   // Ping PROOF slaves. Returns the number of slaves that responded.

   TList *slaves = fSlaves;

   if (slaves->GetSize() == 0) return;

   TIter next(slaves);

   TSlave *sl;
   while ((sl = (TSlave *)next())) {
      if (sl->IsValid()) {
         sl->Touch();
      }
   }

   return;
}

//______________________________________________________________________________
void TProof::Print(Option_t *option) const
{
   // Print status of PROOF cluster.

   TString secCont;

   if (TestBit(TProof::kIsClient)) {
      Printf("Connected to:             %s (%s)", GetMaster(),
                                             IsValid() ? "valid" : "invalid");
      Printf("Port number:              %d", GetPort());
      Printf("User:                     %s", GetUser());
      Printf("ROOT version|rev:         %s|%s", gROOT->GetVersion(), gROOT->GetGitCommit());
      Printf("Architecture-Compiler:    %s-%s", gSystem->GetBuildArch(),
                                                gSystem->GetBuildCompilerVersion());
      TSlave *sl = (TSlave *)fActiveSlaves->First();
      if (sl) {
         TString sc;
         if (sl->GetSocket()->GetSecContext())
            Printf("Security context:         %s",
                                      sl->GetSocket()->GetSecContext()->AsString(sc));
         Printf("Proofd protocol version:  %d", sl->GetSocket()->GetRemoteProtocol());
      } else {
         Printf("Security context:         Error - No connection");
         Printf("Proofd protocol version:  Error - No connection");
      }
      Printf("Client protocol version:  %d", GetClientProtocol());
      Printf("Remote protocol version:  %d", GetRemoteProtocol());
      Printf("Log level:                %d", GetLogLevel());
      Printf("Session unique tag:       %s", IsValid() ? GetSessionTag() : "");
      Printf("Default data pool:        %s", IsValid() ? GetDataPoolUrl() : "");
      if (IsValid())
         const_cast<TProof*>(this)->SendPrint(option);
   } else {
      const_cast<TProof*>(this)->AskStatistics();
      if (IsParallel())
         Printf("*** Master server %s (parallel mode, %d workers):",
                gProofServ->GetOrdinal(), GetParallel());
      else
         Printf("*** Master server %s (sequential mode):",
                gProofServ->GetOrdinal());

      Printf("Master host name:           %s", gSystem->HostName());
      Printf("Port number:                %d", GetPort());
      if (strlen(gProofServ->GetGroup()) > 0) {
         Printf("User/Group:                 %s/%s", GetUser(), gProofServ->GetGroup());
      } else {
         Printf("User:                       %s", GetUser());
      }
      TString ver;
      ver.Form("%s|%s", gROOT->GetVersion(), gROOT->GetGitCommit());
      if (gSystem->Getenv("ROOTVERSIONTAG"))
         ver.Form("%s|%s", gROOT->GetVersion(), gSystem->Getenv("ROOTVERSIONTAG"));
      Printf("ROOT version|rev|tag:       %s", ver.Data());
      Printf("Architecture-Compiler:      %s-%s", gSystem->GetBuildArch(),
                                                  gSystem->GetBuildCompilerVersion());
      Printf("Protocol version:           %d", GetClientProtocol());
      Printf("Image name:                 %s", GetImage());
      Printf("Working directory:          %s", gSystem->WorkingDirectory());
      Printf("Config directory:           %s", GetConfDir());
      Printf("Config file:                %s", GetConfFile());
      Printf("Log level:                  %d", GetLogLevel());
      Printf("Number of workers:          %d", GetNumberOfSlaves());
      Printf("Number of active workers:   %d", GetNumberOfActiveSlaves());
      Printf("Number of unique workers:   %d", GetNumberOfUniqueSlaves());
      Printf("Number of inactive workers: %d", GetNumberOfInactiveSlaves());
      Printf("Number of bad workers:      %d", GetNumberOfBadSlaves());
      Printf("Total MB's processed:       %.2f", float(GetBytesRead())/(1024*1024));
      Printf("Total real time used (s):   %.3f", GetRealTime());
      Printf("Total CPU time used (s):    %.3f", GetCpuTime());
      if (TString(option).Contains("a", TString::kIgnoreCase) && GetNumberOfSlaves()) {
         Printf("List of workers:");
         TList masters;
         TIter nextslave(fSlaves);
         while (TSlave* sl = dynamic_cast<TSlave*>(nextslave())) {
            if (!sl->IsValid()) continue;

            if (sl->GetSlaveType() == TSlave::kSlave) {
               sl->Print(option);
            } else if (sl->GetSlaveType() == TSlave::kMaster) {
               TMessage mess(kPROOF_PRINT);
               mess.WriteString(option);
               if (sl->GetSocket()->Send(mess) == -1)
                  const_cast<TProof*>(this)->MarkBad(sl, "could not send kPROOF_PRINT request");
               else
                  masters.Add(sl);
            } else {
               Error("Print", "TSlave is neither Master nor Worker");
               R__ASSERT(0);
            }
         }
         const_cast<TProof*>(this)->Collect(&masters, fCollectTimeout);
      }
   }
}

//______________________________________________________________________________
Int_t TProof::HandleOutputOptions(TString &opt, TString &target, Int_t action)
{
   // Extract from opt information about output handling settings.
   // The understood keywords are:
   //     of=<file>, outfile=<file>         output file location
   //     ds=<dsname>, dataset=<dsname>     dataset name ('of' and 'ds' are
   //                                       mutually exclusive,execution stops
   //                                       if both are found)
   //     sft[=<opt>], savetofile[=<opt>]   control saving to file
   //
   // For 'mvf', the <opt> integer has the following meaning:
   //     <opt> = <how>*10 + <force>
   //             <force> = 0      save to file if memory threshold is reached
   //                              (the memory threshold is set by the cluster
   //                              admin); in case an output file is defined, the
   //                              files are merged at the end;
   //                       1      save results to file.
   //             <how> =   0      save at the end of the query
   //                       1      save results after each packet (to reduce the
   //                              loss in case of crash).
   //
   // Setting 'ds' automatically sets 'mvf=1'; it is still possible to set 'mvf=11'
   // to save results after each packet.
   //
   // The separator from the next option is either a ' ' or a ';'
   //
   // All recognized settings are removed from the input string opt.
   // If action == 0, set up the output file accordingly, if action == 1 clean related
   // output file settings.
   // If the final target file is local then 'target' is set to the final local path
   // when action == 0 and used to retrieve the file with TFile::Cp when action == 1.
   //
   // Output file settings are in the form
   //
   //       <previous_option>of=name <next_option>
   //       <previous_option>outfile=name,...;<next_option>
   //
   // The separator from the next option is either a ' ' or a ';'
   // Called interanally by TProof::Process.
   //
   // Returns 0 on success, -1 on error.

   TString outfile, dsname, stfopt;
   if (action == 0) {
      TString tagf, tagd, tags, oo;
      Ssiz_t from = 0, iof = kNPOS, iod = kNPOS, ios = kNPOS;
      while (opt.Tokenize(oo, from, "[; ]")) {
         if (oo.BeginsWith("of=")) {
            tagf = "of=";
            iof = opt.Index(tagf);
         } else if (oo.BeginsWith("outfile=")) {
            tagf = "outfile=";
            iof = opt.Index(tagf);
         } else if (oo.BeginsWith("ds")) {
            tagd = "ds";
            iod = opt.Index(tagd);
         } else if (oo.BeginsWith("dataset")) {
            tagd = "dataset";
            iod = opt.Index(tagd);
         } else if (oo.BeginsWith("stf")) {
            tags = "stf";
            ios = opt.Index(tags);
         } else if (oo.BeginsWith("savetofile")) {
            tags = "savetofile";
            ios = opt.Index(tags);
         }
      }
      // Check consistency
      if (iof != kNPOS && iod != kNPOS) {
         Error("HandleOutputOptions", "options 'of'/'outfile' and 'ds'/'dataset' are incompatible!");
         return -1;
      }

      // Check output file first
      if (iof != kNPOS) {
         from = iof + tagf.Length();
         if (!opt.Tokenize(outfile, from, "[; ]") || outfile.IsNull()) {
            Error("HandleOutputOptions", "could not extract output file settings string! (%s)", opt.Data());
            return -1;
         }
         // For removal from original options string
         tagf += outfile;
      }
      // Check dataset
      if (iod != kNPOS) {
         from = iod + tagd.Length();
         if (!opt.Tokenize(dsname, from, "[; ]"))
            if (gDebug > 0) Info("HandleOutputOptions", "no dataset name found: use default");
         // For removal from original options string
         tagd += dsname;
         // The name may be empty or beginning with a '='
         if (dsname.BeginsWith("=")) dsname.Replace(0, 1, "");
         if (dsname.Contains("|V")) {
            target = "ds|V";
            dsname.ReplaceAll("|V", "");
         }
         if (dsname.IsNull()) dsname = "dataset_<qtag>";
      }
      // Check stf
      if (ios != kNPOS) {
         from = ios + tags.Length();
         if (!opt.Tokenize(stfopt, from, "[; ]"))
            if (gDebug > 0) Info("HandleOutputOptions", "save-to-file not found: use default");
         // For removal from original options string
         tags += stfopt;
         // It must be digit
         if (!stfopt.IsNull()) {
            if (stfopt.BeginsWith("=")) stfopt.Replace(0,1,"");
            if (!stfopt.IsNull()) {
               if (!stfopt.IsDigit()) {
                  Error("HandleOutputOptions", "save-to-file option must be a digit! (%s)", stfopt.Data());
                  return -1;
               }
            } else {
               // Default
               stfopt = "1";
            }
         } else {
            // Default
            stfopt = "1";
         }
      }
      // Remove from original options string
      opt.ReplaceAll(tagf, "");
      opt.ReplaceAll(tagd, "");
      opt.ReplaceAll(tags, "");
   }

   // Parse now
   if (action == 0) {
      // Output file
      if (!outfile.IsNull()) {
         if (!outfile.BeginsWith("master:")) {
            if (gSystem->AccessPathName(gSystem->DirName(outfile.Data()), kWritePermission)) {
               Warning("HandleOutputOptions",
                     "directory '%s' for the output file does not exists or is not writable:"
                     " saving to master", gSystem->DirName(outfile.Data()));
               outfile.Form("master:%s", gSystem->BaseName(outfile.Data()));
            } else {
               if (!IsLite()) {
                  // The target file is local, so we need to retrieve it
                  target = outfile;
                  if (!stfopt.IsNull()) {
                     outfile.Form("master:%s", gSystem->BaseName(target.Data()));
                  } else {
                     outfile = "";
                  }
               }
            }
         }
         if (outfile.BeginsWith("master:")) {
            outfile.ReplaceAll("master:", "");
            if (outfile.IsNull() || !gSystem->IsAbsoluteFileName(outfile)) {
               // Get the master data dir
               TString ddir, emsg;
               if (!IsLite()) {
                  if (Exec("gProofServ->GetDataDir()", "0", kTRUE) == 0) {
                     TObjString *os = fMacroLog.GetLineWith("const char");
                     if (os) {
                        Ssiz_t fst =  os->GetString().First('\"');
                        Ssiz_t lst =  os->GetString().Last('\"');
                        ddir = os->GetString()(fst+1, lst-fst-1);
                     } else {
                        emsg = "could not find 'const char *' string in macro log! cannot continue";
                     }
                  } else {
                     emsg = "could not retrieve master data directory info! cannot continue";
                  }
                  if (!emsg.IsNull()) {
                     Error("HandleOutputOptions", "%s", emsg.Data());
                     return -1;
                  }
               }
               if (!ddir.IsNull()) ddir += "/";
               if (outfile.IsNull()) {
                  outfile.Form("%s<file>", ddir.Data());
               } else {
                  outfile.Insert(0, TString::Format("%s", ddir.Data()));
               }
            }
         }
         // Set the parameter
         if (!outfile.IsNull()) {
            if (!outfile.BeginsWith("of:")) outfile.Insert(0, "of:");
            SetParameter("PROOF_DefaultOutputOption", outfile.Data());
         }
      }
      // Dataset creation
      if (!dsname.IsNull()) {
         dsname.Insert(0, "ds:");
         // Set the parameter
         SetParameter("PROOF_DefaultOutputOption", dsname.Data());
         // Check the Save-To-File option
         if (!stfopt.IsNull()) {
            Int_t ostf = (Int_t) stfopt.Atoi();
            if (ostf%10 <= 0) {
               Warning("HandleOutputOptions", "Dataset required bu Save-To-File disabled: enabling!");
               stfopt.Form("%d", ostf+1);
            }
         } else {
            // Minimal setting
            stfopt = "1";
         }
      }
      // Save-To-File options
      if (!stfopt.IsNull()) {
         // Set the parameter
         SetParameter("PROOF_SavePartialResults", (Int_t) stfopt.Atoi());
      }
   } else {
      // Retrieve the file, if required
      if (GetOutputList()) {
         if (target == "ds|V") {
            // Find the dataset
            dsname = "";
            TIter nxo(GetOutputList());
            TObject *o = 0;
            while ((o = nxo())) {
               if (o->InheritsFrom(TFileCollection::Class())) {
                  VerifyDataSet(o->GetName());
                  dsname = o->GetName();
                  break;
               }
            }
            if (!dsname.IsNull()) {
               TFileCollection *fc = GetDataSet(dsname);
               if (fc) {
                  fc->Print();
               } else {
                  Warning("HandleOutputOptions", "could not retrieve TFileCollection for dataset '%s'", dsname.Data());
               }
            } else {
               Warning("HandleOutputOptions", "dataset not found!");
            }
         } else {
            Bool_t targetcopied = kFALSE;
            TProofOutputFile *pf = 0;
            if (!target.IsNull())
               pf = (TProofOutputFile *) GetOutputList()->FindObject(gSystem->BaseName(target.Data()));
            if (pf) {
               // Copy the file
               if (strcmp(TUrl(pf->GetOutputFileName(), kTRUE).GetUrl(),
                          TUrl(target, kTRUE).GetUrl())) {
                  if (TFile::Cp(pf->GetOutputFileName(), target)) {
                     Printf(" Output successfully copied to %s", target.Data());
                     targetcopied = kTRUE;
                  } else {
                     Warning("HandleOutputOptions", "problems copying output to %s", target.Data());
                  }
               }
            }
            TFile *fout = 0;
            TObject *o = 0;
            TIter nxo(GetOutputList());
            Bool_t swapcopied = kFALSE;
            while ((o = nxo())) {
               TProofOutputFile *pof = dynamic_cast<TProofOutputFile *>(o);
               if (pof) {
                  if (pof->TestBit(TProofOutputFile::kSwapFile) && !target.IsNull()) {
                     if (pof == pf && targetcopied) continue;
                     // Copy the file
                     if (strcmp(TUrl(pf->GetOutputFileName(), kTRUE).GetUrl(),
                                TUrl(target, kTRUE).GetUrl())) {
                        if (TFile::Cp(pof->GetOutputFileName(), target)) {
                           Printf(" Output successfully copied to %s", target.Data());
                           swapcopied = kTRUE;
                        } else {
                           Warning("HandleOutputOptions", "problems copying output to %s", target.Data());
                        }
                     }
                  } else if (pof->IsRetrieve()) {
                     // Retrieve this file to the local path indicated in the title
                     if (strcmp(TUrl(pf->GetOutputFileName(), kTRUE).GetUrl(),
                                TUrl(pof->GetTitle(), kTRUE).GetUrl())) {
                        if (TFile::Cp(pof->GetOutputFileName(), pof->GetTitle())) {
                           Printf(" Output successfully copied to %s", pof->GetTitle());
                        } else {
                           Warning("HandleOutputOptions",
                                 "problems copying %s to %s", pof->GetOutputFileName(), pof->GetTitle());
                        }
                     }
                  }
               }
            }
            if (!target.IsNull() && !swapcopied) {
               if (!fout && !pf) {
                  fout = TFile::Open(target, "RECREATE");
                  if (!fout || (fout && fout->IsZombie())) {
                     SafeDelete(fout);
                     Warning("HandleOutputOptions", "problems opening output file %s", target.Data());
                  }
               }
               if (fout) {
                  nxo.Reset();
                  while ((o = nxo())) {
                     TProofOutputFile *pof = dynamic_cast<TProofOutputFile *>(o);
                     if (!pof) {
                        // Write the object to the open output file
                        o->Write();
                     }
                  }
               }
            }
            // Clean-up
            if (fout) {
               fout->Close();
               SafeDelete(fout);
               Printf(" Output saved to %s", target.Data());
            }
         }
      }
      // Remove the parameter
      DeleteParameters("PROOF_DefaultOutputOption");
      // Remove the parameter
      DeleteParameters("PROOF_SavePartialResults");
   }
   // Done
   return 0;
}

//______________________________________________________________________________
void TProof::SetFeedback(TString &opt, TString &optfb, Int_t action)
{
   // Extract from opt in optfb information about wanted feedback settings.
   // Feedback are removed from the input string opt.
   // If action == 0, set up feedback accordingly, if action == 1 clean related
   // feedback settings (using info in optfb, if available, or reparsing opt).
   //
   // Feedback requirements are in the form
   //
   //       <previous_option>fb=name1,name2,name3,... <next_option>
   //       <previous_option>feedback=name1,name2,name3,...;<next_option>
   //
   // The special name 'stats' triggers feedback about events and packets.
   // The separator from the next option is either a ' ' or a ';'.
   // Called interanally by TProof::Process.

   Ssiz_t from = 0;
   if (action == 0 || (action == 1 && optfb.IsNull())) {
      TString tag("fb=");
      Ssiz_t ifb = opt.Index(tag);
      if (ifb == kNPOS) {
         tag = "feedback=";
         ifb = opt.Index(tag);
      }
      if (ifb == kNPOS) return;
      from = ifb + tag.Length();

      if (!opt.Tokenize(optfb, from, "[; ]") || optfb.IsNull()) {
         Warning("SetFeedback", "could not extract feedback string! Ignoring ...");
         return;
      }
      // Remove from original options string
      tag += optfb;
      opt.ReplaceAll(tag, "");
   }

   // Parse now
   TString nm, startdraw, stopdraw;
   from = 0;
   while (optfb.Tokenize(nm, from, ",")) {
      // Special name first
      if (nm == "stats") {
         if (action == 0) {
            startdraw.Form("gDirectory->Add(new TStatsFeedback((TProof *)%p))", this);
            gROOT->ProcessLine(startdraw.Data());
            SetParameter("PROOF_StatsHist", "");
            AddFeedback("PROOF_EventsHist");
            AddFeedback("PROOF_PacketsHist");
            AddFeedback("PROOF_ProcPcktHist");
         } else {
            stopdraw.Form("TObject *o = gDirectory->FindObject(\"%s\"); "
                          " if (o && strcmp(o->ClassName(), \"TStatsFeedback\")) "
                          " { gDirectory->Remove(o); delete o; }", GetSessionTag());
            gROOT->ProcessLine(stopdraw.Data());
            DeleteParameters("PROOF_StatsHist");
            RemoveFeedback("PROOF_EventsHist");
            RemoveFeedback("PROOF_PacketsHist");
            RemoveFeedback("PROOF_ProcPcktHist");
         }
      } else {
         if (action == 0) {
            // Enable or
            AddFeedback(nm);
            startdraw.Form("gDirectory->Add(new TDrawFeedback((TProof *)%p))", this);
            gROOT->ProcessLine(startdraw.Data());
         } else {
            // ... or disable
            RemoveFeedback(nm);
            stopdraw.Form("TObject *o = gDirectory->FindObject(\"%s\"); "
                          " if (o && strcmp(o->ClassName(), \"TDrawFeedback\")) "
                          " { gDirectory->Remove(o); delete o; }", GetSessionTag());
            gROOT->ProcessLine(stopdraw.Data());
         }
      }
   }
}

//______________________________________________________________________________
Long64_t TProof::Process(TDSet *dset, const char *selector, Option_t *option,
                         Long64_t nentries, Long64_t first)
{
   // Process a data set (TDSet) using the specified selector (.C) file or
   // Tselector object
   // Entry- or event-lists should be set in the data set object using
   // TDSet::SetEntryList.
   // The return value is -1 in case of error and TSelector::GetStatus() in
   // in case of success.

   if (!IsValid() || !fPlayer) return -1;

   // Set PROOF to running state
   SetRunStatus(TProof::kRunning);

   TString opt(option), optfb, outfile;
   // Enable feedback, if required
   if (opt.Contains("fb=") || opt.Contains("feedback=")) SetFeedback(opt, optfb, 0);
   // Define output file, either from 'opt' or the default one
   if (HandleOutputOptions(opt, outfile, 0) != 0) return -1;

   // Resolve query mode
   fSync = (GetQueryMode(opt) == kSync);

   if (fSync && (!IsIdle() || IsWaiting())) {
      // Already queued or processing queries: switch to asynchronous mode
      Info("Process", "session is in waiting or processing status: switch to asynchronous mode");
      fSync = kFALSE;
      opt.ReplaceAll("SYNC","");
      opt += "ASYN";
   }

   // Cleanup old temporary datasets
   if ((IsIdle() && !IsWaiting()) && fRunningDSets && fRunningDSets->GetSize() > 0) {
      fRunningDSets->SetOwner(kTRUE);
      fRunningDSets->Delete();
   }

   // deactivate the default application interrupt handler
   // ctrl-c's will be forwarded to PROOF to stop the processing
   TSignalHandler *sh = 0;
   if (fSync) {
      if (gApplication)
         sh = gSystem->RemoveSignalHandler(gApplication->GetSignalHandler());
   }

   // Make sure we get a fresh result
   fOutputList.Clear();

   // Make sure that the workers ready list is empty
   if (fWrksOutputReady) {
      fWrksOutputReady->SetOwner(kFALSE);
      fWrksOutputReady->Clear();
   }

   // Reset time measurements
   fQuerySTW.Reset();

   Long64_t rv = -1;
   if (selector && strlen(selector)) {
      rv = fPlayer->Process(dset, selector, opt.Data(), nentries, first);
   } else if (fSelector) {
      rv = fPlayer->Process(dset, fSelector, opt.Data(), nentries, first);
   } else {
      Error("Process", "neither a selecrot file nor a selector object have"
                       " been specified: cannot process!");
   }

   // This is the end of merging
   fQuerySTW.Stop();
   Float_t rt = fQuerySTW.RealTime();
   // Update the query content
   TQueryResult *qr = GetQueryResult();
   if (qr) {
      qr->SetTermTime(rt);
      qr->SetPrepTime(fPrepTime);
   }

   // Disable feedback, if required
   if (!optfb.IsNull()) SetFeedback(opt, optfb, 1);
   // Finalise output file settings (opt is ignored in here)
   if (HandleOutputOptions(opt, outfile, 1) != 0) return -1;

   // Retrieve status from the output list
   if (rv >= 0) {
      TParameter<Long64_t> *sst =
        (TParameter<Long64_t> *) fOutputList.FindObject("PROOF_SelectorStatus");
      if (sst) rv = sst->GetVal();
   }

   if (fSync) {
      // reactivate the default application interrupt handler
      if (sh)
         gSystem->AddSignalHandler(sh);
      // Save the performance info, if required
      if (!fPerfTree.IsNull()) {
         if (SavePerfTree() != 0) Error("Process", "saving performance info ...");
         // Must be re-enabled each time
         SetPerfTree(0);
      }
   }

   return rv;
}

//______________________________________________________________________________
Long64_t TProof::Process(TFileCollection *fc, const char *selector,
                         Option_t *option, Long64_t nentries, Long64_t first)
{
   // Process a data set (TFileCollection) using the specified selector (.C) file
   // or TSelector object.
   // The default tree is analyzed (i.e. the first one found). To specify another
   // tree, the default tree can be changed using TFileCollection::SetDefaultMetaData .
   // The return value is -1 in case of error and TSelector::GetStatus() in
   // in case of success.

   if (!IsValid() || !fPlayer) return -1;

   if (fProtocol < 17) {
      Info("Process", "server version < 5.18/00:"
                      " processing of TFileCollection not supported");
      return -1;
   }

   // We include the TFileCollection to the input list and we create a
   // fake TDSet with infor about it
   TDSet *dset = new TDSet(TString::Format("TFileCollection:%s", fc->GetName()), 0, 0, "");
   fPlayer->AddInput(fc);


   Long64_t retval = -1;
   if (selector && strlen(selector)) {
      retval = Process(dset, selector, option, nentries, first);
   } else if (fSelector) {
      retval = Process(dset, fSelector, option, nentries, first);
   } else {
      Error("Process", "neither a selecrot file nor a selector object have"
                       " been specified: cannot process!");
   }
   fPlayer->GetInputList()->Remove(fc); // To avoid problems in future

   // Cleanup
   if (IsLite() && !fSync) {
      if (!fRunningDSets) fRunningDSets = new TList;
      fRunningDSets->Add(dset);
   } else {
      delete dset;
   }

   return retval;
}

//______________________________________________________________________________
Long64_t TProof::Process(const char *dsetname, const char *selector,
                         Option_t *option, Long64_t nentries,
                         Long64_t first, TObject *elist)
{
   // Process a dataset which is stored on the master with name 'dsetname'.
   // The syntax for dsetname is name[#[dir/]objname], e.g.
   //   "mydset"       analysis of the first tree in the top dir of the dataset
   //                  named "mydset"
   //   "mydset#T"     analysis tree "T" in the top dir of the dataset
   //                  named "mydset"
   //   "mydset#adir/T" analysis tree "T" in the dir "adir" of the dataset
   //                  named "mydset"
   //   "mydset#adir/" analysis of the first tree in the dir "adir" of the
   //                  dataset named "mydset"
   // The component 'name' in its more general form contains also the group and
   // user name following "/<group>/<user>/<dsname>". Each of these components
   // can contain one or more wildcards '*', in which case all the datasets matching
   // the expression are added together as a global dataset (wildcard support has
   // been added in version 5.27/02).
   // The last argument 'elist' specifies an entry- or event-list to be used as
   // event selection.
   // It is also possible (starting w/ version 5.27/02) to run on multiple datasets
   // at once in a more flexible way that the one provided by wildcarding. There
   // are three possibilities:
   //    1) specifying the dataset names separated by the OR operator '|', e.g.
   //          dsetname = "<dset1>|<dset2>|<dset3>|..."
   //       in this case the datasets are a seen as a global unique dataset
   //    2) specifying the dataset names separated by a ',' or a ' ', e.g.
   //          dsetname = "<dset1>,<dset2> <dset3>,..."
   //       in this case the datasets are processed one after the other and the
   //       selector is notified when switching dataset via a bit in the current
   //       processed element.
   //    3) giving the path of a textfile where the dataset names are specified
   //       on one or multiple lines; the lines found are joined as in 1), unless
   //       the filepath is followed by a ',' (i.e. p->Process("datasets.txt,",...)
   //       with the dataset names listed in 'datasets.txt') in which case they are
   //       treated as in 2); the file is open in raw mode with TFile::Open and
   //       therefore it cane be remote, e.g. on a Web server.
   // Each <dsetj> has the format specified above for the single dataset processing,
   // included wildcarding (the name of the tree and subdirectory must be same for
   // all the datasets).
   // In the case of multiple datasets, 'elist' is treated a global entry list.
   // It is possible to specify per-dataset entry lists using the syntax
   //   "mydset[#adir/[T]]?enl=entrylist"
   // or
   //   "mydset[#adir/[T]]<<entrylist"
   // Here 'entrylist' is a tag identifying, in the order :
   //   i. a named entry-list in the input list or in the input data list
   //  ii. a named entry-list in memory (in gDirectory)
   // iii. the path of a file containing the entry-list to be used
   // In the case ii) and iii) the entry-list object(s) is(are) added to the input
   // data list.
   // The return value is -1 in case of error and TSelector::GetStatus() in
   // in case of success.

   if (fProtocol < 13) {
      Info("Process", "processing 'by name' not supported by the server");
      return -1;
   }

   TString dsname, fname(dsetname);
   // If the 'dsetname' corresponds to an existing and readable file we will try to
   // interpretate its content as names of datasets to be processed. One line can contain
   // more datasets, separated by ',' or '|'. By default the dataset lines will be added
   // (i.e. joined as in option '|'); if the file name ends with ',' the dataset lines are
   // joined with ','.
   const char *separator = (fname.EndsWith(",")) ? "," : "|";
   if (!strcmp(separator, ",") || fname.EndsWith("|")) fname.Remove(fname.Length()-1, 1);
   if (!(gSystem->AccessPathName(fname, kReadPermission))) {
      TUrl uf(fname, kTRUE);
      uf.SetOptions(TString::Format("%sfiletype=raw", uf.GetOptions()));
      TFile *f = TFile::Open(uf.GetUrl());
      if (f && !(f->IsZombie())) {
         const Int_t blen = 8192;
         char buf[blen];
         Long64_t rest = f->GetSize();
         while (rest > 0) {
            Long64_t len = (rest > blen - 1) ? blen - 1 : rest;
            if (f->ReadBuffer(buf, len)) {
               Error("Process", "problems reading from file '%s'", fname.Data());
               dsname = "";
               break;
            }
            buf[len] = '\0';
            dsname += buf;
            rest -= len;
         }
         f->Close();
         SafeDelete(f);
         // We fail if a failure occured
         if (rest > 0) return -1;
      } else {
         Error("Process", "could not open file '%s'", fname.Data());
         return -1;
      }
   }
   if (dsname.IsNull()) {
      dsname = dsetname;
   } else {
      // Remove trailing '\n'
      if (dsname.EndsWith("\n")) dsname.Remove(dsname.Length()-1, 1);
      // Replace all '\n' with the proper separator
      dsname.ReplaceAll("\n", separator);
      if (gDebug > 0) {
         Info("Process", "processing multi-dataset read from file '%s':", fname.Data());
         Info("Process", "  '%s'", dsname.Data());
      }
   }

   TString names(dsname), name, enl, newname;
   // If multi-dataset check if server supports it
   if (fProtocol < 28 && names.Index(TRegexp("[, |]")) != kNPOS) {
      Info("Process", "multi-dataset processing not supported by the server");
      return -1;
   }

   TEntryList *el = 0;
   TString dsobj, dsdir;
   Int_t from = 0;
   while (names.Tokenize(name, from, "[, |]")) {

      newname = name;
      // Extract the specific entry-list, if any
      enl = "";
      Int_t ienl = name.Index("?enl=");
      if (ienl == kNPOS) {
         ienl = name.Index("<<");
         if (ienl != kNPOS) {
            newname.Remove(ienl);
            ienl += strlen("<<");
         }
      } else {
         newname.Remove(ienl);
         ienl += strlen("?enl=");
      }

      // Check the name syntax first
      TString obj, dir("/");
      Int_t idxc = newname.Index("#");
      if (idxc != kNPOS) {
         Int_t idxs = newname.Index("/", 1, idxc, TString::kExact);
         if (idxs != kNPOS) {
            obj = newname(idxs+1, newname.Length());
            dir = newname(idxc+1, newname.Length());
            dir.Remove(dir.Index("/") + 1);
            newname.Remove(idxc);
         } else {
            obj = newname(idxc+1, newname.Length());
            newname.Remove(idxc);
         }
      } else if (newname.Index(":") != kNPOS && newname.Index("://") == kNPOS) {
         // protection against using ':' instead of '#'
         Error("Process", "bad name syntax (%s): please use"
                          " a '#' after the dataset name", name.Data());
         dsname.ReplaceAll(name, "");
         continue;
      }
      if (dsobj.IsNull() && dsdir.IsNull()) {
         // The first one specifies obj and dir
         dsobj = obj;
         dsdir = dir;
      } else if (obj != dsobj || dir != dsdir) {
         // Inconsistent specification: not supported
         Warning("Process", "'obj' or 'dir' specification not consistent w/ the first given: ignore");
      }
      // Process the entry-list name, if any
      if (ienl != kNPOS) {
         // Get entrylist name or path
         enl = name(ienl, name.Length());
         el = 0;
         TObject *oel = 0;
         // If not in the input list ...
         TList *inpl = GetInputList();
         if (inpl && (oel = inpl->FindObject(enl))) el = dynamic_cast<TEntryList *>(oel);
         // ... check the heap
         if (!el && gDirectory && (oel = gDirectory->FindObject(enl))) {
            if ((el = dynamic_cast<TEntryList *>(oel))) {
               // Add to the input list (input data not available on master where
               // this info will be processed)
               if (fProtocol >= 28)
                  if (!(inpl->FindObject(el->GetName()))) AddInput(el);
            }
         }
         // If not in the heap, check a file, if any
         if (!el) {
            if (!gSystem->AccessPathName(enl)) {
               TFile *f = TFile::Open(enl);
               if (f && !(f->IsZombie()) && f->GetListOfKeys()) {
                  TIter nxk(f->GetListOfKeys());
                  TKey *k = 0;
                  while ((k = (TKey *) nxk())) {
                     if (!strcmp(k->GetClassName(), "TEntryList")) {
                        if (!el) {
                           if ((el = dynamic_cast<TEntryList *>(f->Get(k->GetName())))) {
                              // Add to the input list (input data not available on master where
                              // this info will be processed)
                              if (fProtocol >= 28) {
                                 if (!(inpl->FindObject(el->GetName()))) {
                                    el = (TEntryList *) el->Clone();
                                    AddInput(el);
                                 }
                              } else {
                                 el = (TEntryList *) el->Clone();
                              }
                           }
                        } else if (strcmp(el->GetName(), k->GetName())) {
                           Warning("Process", "multiple entry lists found in file '%s': the first one is taken;\n"
                                              "if this is not what you want, load first the content in memory"
                                              "and select it by name  ", enl.Data());
                        }
                     }
                  }
               } else {
                  Warning("Process","file '%s' cannot be open or is empty - ignoring", enl.Data());
               }
            }
         }
         // Transmit the information
         if (fProtocol >= 28) {
            newname += "?enl=";
            if (el) {
               // An entry list object is avalaible in the input list: add its name
               newname += el->GetName();
            } else {
               // The entry list object was not found: send the name, the future entry list manager will
               // find it on the server side
               newname += enl;
            }
         }
      }
      // Adjust the name for this dataset
      dsname.ReplaceAll(name, newname);
   }

   // Create the dataset object
   TDSet *dset = new TDSet(dsname, dsobj, dsdir);
   // Set entry list
   if (el && fProtocol < 28) {
      dset->SetEntryList(el);
   } else {
      dset->SetEntryList(elist);
   }
   // Run
   Long64_t retval = -1;
   if (selector && strlen(selector)) {
      retval = Process(dset, selector, option, nentries, first);
   } else if (fSelector) {
      retval = Process(dset, fSelector, option, nentries, first);
   } else {
      Error("Process", "neither a selector file nor a selector object have"
                       " been specified: cannot process!");
   }
   // Cleanup
   if (IsLite() && !fSync) {
      if (!fRunningDSets) fRunningDSets = new TList;
      fRunningDSets->Add(dset);
   } else {
      delete dset;
   }

   return retval;
}

//______________________________________________________________________________
Long64_t TProof::Process(const char *selector, Long64_t n, Option_t *option)
{
   // Generic (non-data based) selector processing: the Process() method of the
   // specified selector (.C) or TSelector object is called 'n' times.
   // The return value is -1 in case of error and TSelector::GetStatus() in
   // in case of success.

   if (!IsValid()) return -1;

   if (fProtocol < 16) {
      Info("Process", "server version < 5.17/04: generic processing not supported");
      return -1;
   }

   // Fake data set
   TDSet *dset = new TDSet;
   dset->SetBit(TDSet::kEmpty);

   Long64_t retval = -1;
   if (selector && strlen(selector)) {
      retval = Process(dset, selector, option, n);
   } else if (fSelector) {
      retval = Process(dset, fSelector, option, n);
   } else {
      Error("Process", "neither a selector file nor a selector object have"
                       " been specified: cannot process!");
   }

   // Cleanup
   if (IsLite() && !fSync) {
      if (!fRunningDSets) fRunningDSets = new TList;
      fRunningDSets->Add(dset);
   } else {
      delete dset;
   }
   return retval;
}

//______________________________________________________________________________
Long64_t TProof::Process(TDSet *dset, TSelector *selector, Option_t *option,
                         Long64_t nentries, Long64_t first)
{
   // Process a data set (TDSet) using the specified selector object.
   // Entry- or event-lists should be set in the data set object using
   // TDSet::SetEntryList.
   // The return value is -1 in case of error and TSelector::GetStatus() in
   // in case of success.

   if (fProtocol < 34) {
      Error("Process", "server version < 5.33/02:"
                       "processing by object not supported");
      return -1;
   }
   if (!selector) {
      Error("Process", "selector object undefined!");
      return -1;
   }
   fSelector = selector;
   Long64_t rc = Process(dset, (const char*)0, option, nentries, first);
   fSelector = 0;
   // Done
   return rc;
}

//______________________________________________________________________________
Long64_t TProof::Process(TFileCollection *fc, TSelector *selector,
                         Option_t *option, Long64_t nentries, Long64_t first)
{
   // Process a data set (TFileCollection) using the specified selector object
   // The default tree is analyzed (i.e. the first one found). To specify another
   // tree, the default tree can be changed using TFileCollection::SetDefaultMetaData .
   // The return value is -1 in case of error and TSelector::GetStatus() in
   // in case of success.

   if (fProtocol < 34) {
      Error("Process", "server version < 5.33/02:"
                       "processing by object not supported");
      return -1;
   }
   if (!selector) {
      Error("Process", "selector object undefined!");
      return -1;
   }
   fSelector = selector;
   Long64_t rc = Process(fc, (const char*)0, option, nentries, first);
   fSelector = 0;
   // Done
   return rc;
}

//______________________________________________________________________________
Long64_t TProof::Process(const char *dsetname, TSelector *selector,
                         Option_t *option, Long64_t nentries,
                         Long64_t first, TObject *elist)
{
   // Process with name of dataset and TSelector object
   if (fProtocol < 34) {
      Error("Process", "server version < 5.33/02:"
                       "processing by object not supported");
      return -1;
   }
   if (!selector) {
      Error("Process", "selector object undefined!");
      return -1;
   }
   fSelector = selector;
   Long64_t rc = Process(dsetname, (const char*)0, option, nentries, first, elist);
   fSelector = 0;
   // Done
   return rc;
}

//______________________________________________________________________________
Long64_t TProof::Process(TSelector *selector, Long64_t n, Option_t *option)
{
   // Generic (non-data based) selector processing: the Process() method of the
   // specified selector is called 'n' times.
   // The return value is -1 in case of error and TSelector::GetStatus() in
   // in case of success.

   if (fProtocol < 34) {
      Error("Process", "server version < 5.33/02:"
                       "processing by object not supported");
      return -1;
   }
   if (!selector) {
      Error("Process", "selector object undefined!");
      return -1;
   }
   fSelector = selector;
   Long64_t rc = Process((const char*)0, n, option);
   fSelector = 0;
   // Done
   return rc;
}

//______________________________________________________________________________
Int_t TProof::GetQueryReference(Int_t qry, TString &ref)
{
   // Get reference for the qry-th query in fQueries (as
   // displayed by ShowQueries).

   ref = "";
   if (qry > 0) {
      if (!fQueries)
         GetListOfQueries();
      if (fQueries) {
         TIter nxq(fQueries);
         TQueryResult *qr = 0;
         while ((qr = (TQueryResult *) nxq()))
            if (qr->GetSeqNum() == qry) {
               ref.Form("%s:%s", qr->GetTitle(), qr->GetName());
               return 0;
            }
      }
   }
   return -1;
}

//______________________________________________________________________________
Long64_t TProof::Finalize(Int_t qry, Bool_t force)
{
   // Finalize the qry-th query in fQueries.
   // If force, force retrieval if the query is found in the local list
   // but has already been finalized (default kFALSE).
   // If query < 0, finalize current query.
   // Return 0 on success, -1 on error

   if (fPlayer) {
      if (qry > 0) {
         TString ref;
         if (GetQueryReference(qry, ref) == 0) {
            return Finalize(ref, force);
         } else {
            Info("Finalize", "query #%d not found", qry);
         }
      } else {
         // The last query
         return Finalize("", force);
      }
   }
   return -1;
}

//______________________________________________________________________________
Long64_t TProof::Finalize(const char *ref, Bool_t force)
{
   // Finalize query with reference ref.
   // If force, force retrieval if the query is found in the local list
   // but has already been finalized (default kFALSE).
   // If ref = 0, finalize current query.
   // Return 0 on success, -1 on error

   if (fPlayer) {
      // Get the pointer to the query
      TQueryResult *qr = (ref && strlen(ref) > 0) ? fPlayer->GetQueryResult(ref)
                                                  : GetQueryResult();
      Bool_t retrieve = kFALSE;
      TString xref(ref);
      if (!qr) {
         if (!xref.IsNull()) {
            retrieve =  kTRUE;
         }
      } else {
         if (qr->IsFinalized()) {
            if (force) {
               retrieve = kTRUE;
            } else {
               Info("Finalize","query already finalized:"
                     " use Finalize(<qry>,kTRUE) to force new retrieval");
               qr = 0;
            }
         } else {
            retrieve = kTRUE;
            xref.Form("%s:%s", qr->GetTitle(), qr->GetName());
         }
      }
      if (retrieve) {
         Retrieve(xref.Data());
         qr = fPlayer->GetQueryResult(xref.Data());
      }
      if (qr)
         return fPlayer->Finalize(qr);
   }
   return -1;
}

//______________________________________________________________________________
Int_t TProof::Retrieve(Int_t qry, const char *path)
{
   // Send retrieve request for the qry-th query in fQueries.
   // If path is defined save it to path.

   if (qry > 0) {
      TString ref;
      if (GetQueryReference(qry, ref) == 0)
         return Retrieve(ref, path);
      else
         Info("Retrieve", "query #%d not found", qry);
   } else {
      Info("Retrieve","positive argument required - do nothing");
   }
   return -1;
}

//______________________________________________________________________________
Int_t TProof::Retrieve(const char *ref, const char *path)
{
   // Send retrieve request for the query specified by ref.
   // If path is defined save it to path.
   // Generic method working for all queries known by the server.

   if (ref) {
      TMessage m(kPROOF_RETRIEVE);
      m << TString(ref);
      Broadcast(m, kActive);
      Collect(kActive, fCollectTimeout);

      // Archive it locally, if required
      if (path) {

         // Get pointer to query
         TQueryResult *qr = fPlayer ? fPlayer->GetQueryResult(ref) : 0;

         if (qr) {

            TFile *farc = TFile::Open(path,"UPDATE");
            if (!farc || (farc && !(farc->IsOpen()))) {
               Info("Retrieve", "archive file cannot be open (%s)", path);
               return 0;
            }
            farc->cd();

            // Update query status
            qr->SetArchived(path);

            // Write to file
            qr->Write();

            farc->Close();
            SafeDelete(farc);

         } else {
            Info("Retrieve", "query not found after retrieve");
            return -1;
         }
      }

      return 0;
   }
   return -1;
}

//______________________________________________________________________________
Int_t TProof::Remove(Int_t qry, Bool_t all)
{
   // Send remove request for the qry-th query in fQueries.

   if (qry > 0) {
      TString ref;
      if (GetQueryReference(qry, ref) == 0)
         return Remove(ref, all);
      else
         Info("Remove", "query #%d not found", qry);
   } else {
      Info("Remove","positive argument required - do nothing");
   }
   return -1;
}

//______________________________________________________________________________
Int_t TProof::Remove(const char *ref, Bool_t all)
{
   // Send remove request for the query specified by ref.
   // If all = TRUE remove also local copies of the query, if any.
   // Generic method working for all queries known by the server.
   // This method can be also used to reset the list of queries
   // waiting to be processed: for that purpose use ref == "cleanupqueue".

   if (all) {
      // Remove also local copies, if any
      if (fPlayer)
         fPlayer->RemoveQueryResult(ref);
   }

   if (IsLite()) return 0;

   if (ref) {
      TMessage m(kPROOF_REMOVE);
      m << TString(ref);
      Broadcast(m, kActive);
      Collect(kActive, fCollectTimeout);
      return 0;
   }
   return -1;
}

//______________________________________________________________________________
Int_t TProof::Archive(Int_t qry, const char *path)
{
   // Send archive request for the qry-th query in fQueries.

   if (qry > 0) {
      TString ref;
      if (GetQueryReference(qry, ref) == 0)
         return Archive(ref, path);
      else
         Info("Archive", "query #%d not found", qry);
   } else {
      Info("Archive","positive argument required - do nothing");
   }
   return -1;
}

//______________________________________________________________________________
Int_t TProof::Archive(const char *ref, const char *path)
{
   // Send archive request for the query specified by ref.
   // Generic method working for all queries known by the server.
   // If ref == "Default", path is understood as a default path for
   // archiving.

   if (ref) {
      TMessage m(kPROOF_ARCHIVE);
      m << TString(ref) << TString(path);
      Broadcast(m, kActive);
      Collect(kActive, fCollectTimeout);
      return 0;
   }
   return -1;
}

//______________________________________________________________________________
Int_t TProof::CleanupSession(const char *sessiontag)
{
   // Send cleanup request for the session specified by tag.

   if (sessiontag) {
      TMessage m(kPROOF_CLEANUPSESSION);
      m << TString(sessiontag);
      Broadcast(m, kActive);
      Collect(kActive, fCollectTimeout);
      return 0;
   }
   return -1;
}

//_____________________________________________________________________________
void TProof::SetQueryMode(EQueryMode mode)
{
   // Change query running mode to the one specified by 'mode'.

   fQueryMode = mode;

   if (gDebug > 0)
      Info("SetQueryMode","query mode is set to: %s", fQueryMode == kSync ?
           "Sync" : "Async");
}

//______________________________________________________________________________
TProof::EQueryMode TProof::GetQueryMode(Option_t *mode) const
{
   // Find out the query mode based on the current setting and 'mode'.

   EQueryMode qmode = fQueryMode;

   if (mode && (strlen(mode) > 0)) {
      TString m(mode);
      m.ToUpper();
      if (m.Contains("ASYN")) {
         qmode = kAsync;
      } else if (m.Contains("SYNC")) {
         qmode = kSync;
      }
   }

   if (gDebug > 0)
      Info("GetQueryMode","query mode is set to: %s", qmode == kSync ?
           "Sync" : "Async");

   return qmode;
}

//______________________________________________________________________________
Long64_t TProof::DrawSelect(TDSet *dset, const char *varexp,
                            const char *selection, Option_t *option,
                            Long64_t nentries, Long64_t first)
{
   // Execute the specified drawing action on a data set (TDSet).
   // Event- or Entry-lists should be set in the data set object using
   // TDSet::SetEntryList.
   // Returns -1 in case of error or number of selected events otherwise.

   if (!IsValid() || !fPlayer) return -1;

   // Make sure that asynchronous processing is not active
   if (!IsIdle()) {
      Info("DrawSelect","not idle, asynchronous Draw not supported");
      return -1;
   }
   TString opt(option);
   Int_t idx = opt.Index("ASYN", 0, TString::kIgnoreCase);
   if (idx != kNPOS)
      opt.Replace(idx,4,"");

   return fPlayer->DrawSelect(dset, varexp, selection, opt, nentries, first);
}

//______________________________________________________________________________
Long64_t TProof::DrawSelect(const char *dsetname, const char *varexp,
                            const char *selection, Option_t *option,
                            Long64_t nentries, Long64_t first, TObject *enl)
{
   // Execute the specified drawing action on a data set which is stored on the
   // master with name 'dsetname'.
   // The syntax for dsetname is name[#[dir/]objname], e.g.
   //   "mydset"       analysis of the first tree in the top dir of the dataset
   //                  named "mydset"
   //   "mydset#T"     analysis tree "T" in the top dir of the dataset
   //                  named "mydset"
   //   "mydset#adir/T" analysis tree "T" in the dir "adir" of the dataset
   //                  named "mydset"
   //   "mydset#adir/" analysis of the first tree in the dir "adir" of the
   //                  dataset named "mydset"
   // The last argument 'enl' specifies an entry- or event-list to be used as
   // event selection.
   // The return value is -1 in case of error and TSelector::GetStatus() in
   // in case of success.

   if (fProtocol < 13) {
      Info("Process", "processing 'by name' not supported by the server");
      return -1;
   }

   TString name(dsetname);
   TString obj;
   TString dir = "/";
   Int_t idxc = name.Index("#");
   if (idxc != kNPOS) {
      Int_t idxs = name.Index("/", 1, idxc, TString::kExact);
      if (idxs != kNPOS) {
         obj = name(idxs+1, name.Length());
         dir = name(idxc+1, name.Length());
         dir.Remove(dir.Index("/") + 1);
         name.Remove(idxc);
      } else {
         obj = name(idxc+1, name.Length());
         name.Remove(idxc);
      }
   } else if (name.Index(":") != kNPOS && name.Index("://") == kNPOS) {
      // protection against using ':' instead of '#'
      Error("DrawSelect", "bad name syntax (%s): please use"
                       " a '#' after the dataset name", dsetname);
      return -1;
   }

   TDSet *dset = new TDSet(name, obj, dir);
   // Set entry-list, if required
   dset->SetEntryList(enl);
   Long64_t retval = DrawSelect(dset, varexp, selection, option, nentries, first);
   delete dset;
   return retval;
}

//______________________________________________________________________________
void TProof::StopProcess(Bool_t abort, Int_t timeout)
{
   // Send STOPPROCESS message to master and workers.

   PDB(kGlobal,2)
      Info("StopProcess","enter %d", abort);

   if (!IsValid())
      return;

   // Flag that we have been stopped
   ERunStatus rst = abort ? TProof::kAborted : TProof::kStopped;
   SetRunStatus(rst);

   if (fPlayer)
      fPlayer->StopProcess(abort, timeout);

   // Stop any blocking 'Collect' request; on masters we do this only if
   // aborting; when stopping, we still need to receive the results
   if (TestBit(TProof::kIsClient) || abort)
      InterruptCurrentMonitor();

   if (fSlaves->GetSize() == 0)
      return;

   // Notify the remote counterpart
   TSlave *sl;
   TIter   next(fSlaves);
   while ((sl = (TSlave *)next()))
      if (sl->IsValid())
         // Ask slave to progate the stop/abort request
         sl->StopProcess(abort, timeout);
}

//______________________________________________________________________________
void TProof::DisableGoAsyn()
{
   // Signal to disable related switches

   Emit("DisableGoAsyn()");
}

//______________________________________________________________________________
void TProof::GoAsynchronous()
{
   // Send GOASYNC message to the master.

   if (!IsValid()) return;

   if (GetRemoteProtocol() < 22) {
      Info("GoAsynchronous", "functionality not supported by the server - ignoring");
      return;
   }

   if (fSync && !IsIdle()) {
      TMessage m(kPROOF_GOASYNC);
      Broadcast(m);
   } else {
      Info("GoAsynchronous", "either idle or already in asynchronous mode - ignoring");
   }
}

//______________________________________________________________________________
void TProof::RecvLogFile(TSocket *s, Int_t size)
{
   // Receive the log file of the slave with socket s.

   const Int_t kMAXBUF = 16384;  //32768  //16384  //65536;
   char buf[kMAXBUF];

   // If macro saving is enabled prepare macro
   if (fSaveLogToMacro && fMacroLog.GetListOfLines()) {
      fMacroLog.GetListOfLines()->SetOwner(kTRUE);
      fMacroLog.GetListOfLines()->Clear();
   }

   // Append messages to active logging unit
   Int_t fdout = -1;
   if (!fLogToWindowOnly) {
      fdout = (fRedirLog) ? fileno(fLogFileW) : fileno(stdout);
      if (fdout < 0) {
         Warning("RecvLogFile", "file descriptor for outputs undefined (%d):"
                 " will not log msgs", fdout);
         return;
      }
      lseek(fdout, (off_t) 0, SEEK_END);
   }

   Int_t  left, rec, r;
   Long_t filesize = 0;

   while (filesize < size) {
      left = Int_t(size - filesize);
      if (left >= kMAXBUF)
         left = kMAXBUF-1;
      rec = s->RecvRaw(&buf, left);
      filesize = (rec > 0) ? (filesize + rec) : filesize;
      if (!fLogToWindowOnly && !fSaveLogToMacro) {
         if (rec > 0) {

            char *p = buf;
            r = rec;
            while (r) {
               Int_t w;

               w = write(fdout, p, r);

               if (w < 0) {
                  SysError("RecvLogFile", "error writing to unit: %d", fdout);
                  break;
               }
               r -= w;
               p += w;
            }
         } else if (rec < 0) {
            Error("RecvLogFile", "error during receiving log file");
            break;
         }
      }
      if (rec > 0) {
         buf[rec] = 0;
         EmitVA("LogMessage(const char*,Bool_t)", 2, buf, kFALSE);
         // If macro saving is enabled add to TMacro
         if (fSaveLogToMacro) fMacroLog.AddLine(buf);
      }
   }

   // If idle restore logs to main session window
   if (fRedirLog && IsIdle() && !TestBit(TProof::kIsMaster))
      fRedirLog = kFALSE;
}

//______________________________________________________________________________
void TProof::NotifyLogMsg(const char *msg, const char *sfx)
{
   // Notify locally 'msg' to the appropriate units (file, stdout, window)
   // If defined, 'sfx' is added after 'msg' (typically a line-feed);

   // Must have somenthing to notify
   Int_t len = 0;
   if (!msg || (len = strlen(msg)) <= 0)
      return;

   // Get suffix length if any
   Int_t lsfx = (sfx) ? strlen(sfx) : 0;

   // Append messages to active logging unit
   Int_t fdout = -1;
   if (!fLogToWindowOnly) {
      fdout = (fRedirLog) ? fileno(fLogFileW) : fileno(stdout);
      if (fdout < 0) {
         Warning("NotifyLogMsg", "file descriptor for outputs undefined (%d):"
                 " will not notify msgs", fdout);
         return;
      }
      lseek(fdout, (off_t) 0, SEEK_END);
   }

   if (!fLogToWindowOnly) {
      // Write to output unit (stdout or a log file)
      if (len > 0) {
         char *p = (char *)msg;
         Int_t r = len;
         while (r) {
            Int_t w = write(fdout, p, r);
            if (w < 0) {
               SysError("NotifyLogMsg", "error writing to unit: %d", fdout);
               break;
            }
            r -= w;
            p += w;
         }
         // Add a suffix, if requested
         if (lsfx > 0)
            if (write(fdout, sfx, lsfx) != lsfx)
               SysError("NotifyLogMsg", "error writing to unit: %d", fdout);
      }
   }
   if (len > 0) {
      // Publish the message to the separate window (if the latter is missing
      // the message will just get lost)
      EmitVA("LogMessage(const char*,Bool_t)", 2, msg, kFALSE);
   }

   // If idle restore logs to main session window
   if (fRedirLog && IsIdle())
      fRedirLog = kFALSE;
}

//______________________________________________________________________________
void TProof::LogMessage(const char *msg, Bool_t all)
{
   // Log a message into the appropriate window by emitting a signal.

   PDB(kGlobal,1)
      Info("LogMessage","Enter ... %s, 'all: %s", msg ? msg : "",
           all ? "true" : "false");

   if (gROOT->IsBatch()) {
      PDB(kGlobal,1) Info("LogMessage","GUI not started - use TProof::ShowLog()");
      return;
   }

   if (msg)
      EmitVA("LogMessage(const char*,Bool_t)", 2, msg, all);

   // Re-position at the beginning of the file, if requested.
   // This is used by the dialog when it re-opens the log window to
   // provide all the session messages
   if (all)
      lseek(fileno(fLogFileR), (off_t) 0, SEEK_SET);

   const Int_t kMAXBUF = 32768;
   char buf[kMAXBUF];
   Int_t len;
   do {
      while ((len = read(fileno(fLogFileR), buf, kMAXBUF-1)) < 0 &&
             TSystem::GetErrno() == EINTR)
         TSystem::ResetErrno();

      if (len < 0) {
         Error("LogMessage", "error reading log file");
         break;
      }

      if (len > 0) {
         buf[len] = 0;
         EmitVA("LogMessage(const char*,Bool_t)", 2, buf, kFALSE);
      }

   } while (len > 0);
}

//______________________________________________________________________________
Int_t TProof::SendGroupView()
{
   // Send to all active slaves servers the current slave group size
   // and their unique id. Returns number of active slaves.
   // Returns -1 in case of error.

   if (!IsValid()) return -1;
   if (TestBit(TProof::kIsClient)) return 0;
   if (!fSendGroupView) return 0;
   fSendGroupView = kFALSE;

   TIter   next(fActiveSlaves);
   TSlave *sl;

   int  bad = 0, cnt = 0, size = GetNumberOfActiveSlaves();
   char str[32];

   while ((sl = (TSlave *)next())) {
      snprintf(str, 32, "%d %d", cnt, size);
      if (sl->GetSocket()->Send(str, kPROOF_GROUPVIEW) == -1) {
         MarkBad(sl, "could not send kPROOF_GROUPVIEW message");
         bad++;
      } else
         cnt++;
   }

   // Send the group view again in case there was a change in the
   // group size due to a bad slave

   if (bad) SendGroupView();

   return GetNumberOfActiveSlaves();
}

//______________________________________________________________________________
Bool_t TProof::GetFileInCmd(const char *cmd, TString &fn)
{
   // Static method to extract the filename (if any) form a CINT command.
   // Returns kTRUE and the filename in 'fn'; returns kFALSE if not found or not
   // appliable.

   TString s = cmd;
   s = s.Strip(TString::kBoth);

   if (s.Length() > 0 &&
      (s.BeginsWith(".L") || s.BeginsWith(".x") || s.BeginsWith(".X"))) {
      TString file = s(2, s.Length());
      TString acm, arg, io;
      fn = gSystem->SplitAclicMode(file, acm, arg, io);
      if (!fn.IsNull())
         return kTRUE;
   }

   // Not found
   return kFALSE;
}

//______________________________________________________________________________
Int_t TProof::Exec(const char *cmd, Bool_t plusMaster)
{
   // Send command to be executed on the PROOF master and/or slaves.
   // If plusMaster is kTRUE then exeucte on slaves and master too.
   // Command can be any legal command line command. Commands like
   // ".x file.C" or ".L file.C" will cause the file file.C to be send
   // to the PROOF cluster. Returns -1 in case of error, >=0 in case of
   // succes.

   return Exec(cmd, kActive, plusMaster);
}

//______________________________________________________________________________
Int_t TProof::Exec(const char *cmd, ESlaves list, Bool_t plusMaster)
{
   // Send command to be executed on the PROOF master and/or slaves.
   // Command can be any legal command line command. Commands like
   // ".x file.C" or ".L file.C" will cause the file file.C to be send
   // to the PROOF cluster. Returns -1 in case of error, >=0 in case of
   // succes.

   if (!IsValid()) return -1;

   TString s = cmd;
   s = s.Strip(TString::kBoth);

   if (!s.Length()) return 0;

   // check for macro file and make sure the file is available on all slaves
   TString filename;
   if (TProof::GetFileInCmd(s.Data(), filename)) {
      char *fn = gSystem->Which(TROOT::GetMacroPath(), filename, kReadPermission);
      if (fn) {
         if (GetNumberOfUniqueSlaves() > 0) {
            if (SendFile(fn, kAscii | kForward | kCpBin) < 0) {
               Error("Exec", "file %s could not be transfered", fn);
               delete [] fn;
               return -1;
            }
         } else {
            TString scmd = s(0,3) + fn;
            Int_t n = SendCommand(scmd, list);
            delete [] fn;
            return n;
         }
      } else {
         Error("Exec", "macro %s not found", filename.Data());
         return -1;
      }
      delete [] fn;
   }

   if (plusMaster) {
      if (IsLite()) {
         gROOT->ProcessLine(cmd);
      } else {
         DeactivateWorker("*");
         Int_t res = SendCommand(cmd, list);
         ActivateWorker("restore");
         if (res < 0)
            return res;
      }
   }
   return SendCommand(cmd, list);
}

//______________________________________________________________________________
Int_t TProof::Exec(const char *cmd, const char *ord, Bool_t logtomacro)
{
   // Send command to be executed on node of ordinal 'ord' (use "0" for master).
   // Command can be any legal command line command. Commands like
   // ".x file.C" or ".L file.C" will cause the file file.C to be send
   // to the PROOF cluster.
   // If logtomacro is TRUE the text result of the action is saved in the fMacroLog
   // TMacro, accessible via TMacro::GetMacroLog();
   // Returns -1 in case of error, >=0 in case of succes.

   if (!IsValid()) return -1;

   TString s = cmd;
   s = s.Strip(TString::kBoth);

   if (!s.Length()) return 0;

   Int_t res = 0;
   if (IsLite()) {
      gROOT->ProcessLine(cmd);
   } else {
      Bool_t oldRedirLog = fRedirLog;
      fRedirLog = kTRUE;
      // Deactivate all workers
      DeactivateWorker("*");
      fRedirLog = kFALSE;
      // Reactivate the target ones, if needed
      if (strcmp(ord, "master") && strcmp(ord, "0")) ActivateWorker(ord);
      // Honour log-to-macro-saving settings
      Bool_t oldSaveLog = fSaveLogToMacro;
      fSaveLogToMacro = logtomacro;
      res = SendCommand(cmd, kActive);
      fSaveLogToMacro = oldSaveLog;
      fRedirLog = kTRUE;
      ActivateWorker("restore");
      fRedirLog = oldRedirLog;
   }
   // Done
   return res;
}

//______________________________________________________________________________
Int_t TProof::SendCommand(const char *cmd, ESlaves list)
{
   // Send command to be executed on the PROOF master and/or slaves.
   // Command can be any legal command line command, however commands
   // like ".x file.C" or ".L file.C" will not cause the file.C to be
   // transfered to the PROOF cluster. In that case use TProof::Exec().
   // Returns the status send by the remote server as part of the
   // kPROOF_LOGDONE message. Typically this is the return code of the
   // command on the remote side. Returns -1 in case of error.

   if (!IsValid()) return -1;

   Broadcast(cmd, kMESS_CINT, list);
   Collect(list);

   return fStatus;
}

//______________________________________________________________________________
TString TProof::Getenv(const char *env, const char *ord)
{
   // Get value of environment variable 'env' on node 'ord'

   // The command to be executed
   TString cmd = TString::Format("gSystem->Getenv(\"%s\")", env);
   if (Exec(cmd.Data(), ord, kTRUE) != 0) return TString("");
   // Get the line
   TObjString *os = fMacroLog.GetLineWith("const char");
   if (os) {
      TString info;
      Ssiz_t from = 0;
      os->GetString().Tokenize(info, from, "\"");
      os->GetString().Tokenize(info, from, "\"");
      if (gDebug > 0) Printf("%s: '%s'", env, info.Data());
      return info;
   }
   return TString("");
}

//______________________________________________________________________________
Int_t TProof::GetRC(const char *rcenv, Int_t &env, const char *ord)
{
   // Get into 'env' the value of integer RC env variable 'rcenv' on node 'ord'

   // The command to be executed
   TString cmd = TString::Format("if (gEnv->Lookup(\"%s\")) { gEnv->GetValue(\"%s\",\"\"); }", rcenv, rcenv);
   // Exectute the command saving the logs to macro
   if (Exec(cmd.Data(), ord, kTRUE) != 0) return -1;
   // Get the line
   TObjString *os = fMacroLog.GetLineWith("const char");
   Int_t rc = -1;
   if (os) {
      Ssiz_t fst =  os->GetString().First('\"');
      Ssiz_t lst =  os->GetString().Last('\"');
      TString info = os->GetString()(fst+1, lst-fst-1);
      if (info.IsDigit()) {
         env = info.Atoi();
         rc = 0;
         if (gDebug > 0)
            Printf("%s: %d", rcenv, env);
      }
   }
   return rc;
}

//______________________________________________________________________________
Int_t TProof::GetRC(const char *rcenv, Double_t &env, const char *ord)
{
   // Get into 'env' the value of double RC env variable 'rcenv' on node 'ord'

   // The command to be executed
   TString cmd = TString::Format("if (gEnv->Lookup(\"%s\")) { gEnv->GetValue(\"%s\",\"\"); }", rcenv, rcenv);
   // Exectute the command saving the logs to macro
   if (Exec(cmd.Data(), ord, kTRUE) != 0) return -1;
   // Get the line
   TObjString *os = fMacroLog.GetLineWith("const char");
   Int_t rc = -1;
   if (os) {
      Ssiz_t fst =  os->GetString().First('\"');
      Ssiz_t lst =  os->GetString().Last('\"');
      TString info = os->GetString()(fst+1, lst-fst-1);
      if (info.IsFloat()) {
         env = info.Atof();
         rc = 0;
         if (gDebug > 0)
            Printf("%s: %f", rcenv, env);
      }
   }
   return rc;
}

//______________________________________________________________________________
Int_t TProof::GetRC(const char *rcenv, TString &env, const char *ord)
{
   // Get into 'env' the value of string RC env variable 'rcenv' on node 'ord'

   // The command to be executed
   TString cmd = TString::Format("if (gEnv->Lookup(\"%s\")) { gEnv->GetValue(\"%s\",\"\"); }", rcenv, rcenv);
   // Exectute the command saving the logs to macro
   if (Exec(cmd.Data(), ord, kTRUE) != 0) return -1;
   // Get the line
   TObjString *os = fMacroLog.GetLineWith("const char");
   Int_t rc = -1;
   if (os) {
      Ssiz_t fst =  os->GetString().First('\"');
      Ssiz_t lst =  os->GetString().Last('\"');
      env = os->GetString()(fst+1, lst-fst-1);
      rc = 0;
      if (gDebug > 0)
         Printf("%s: %s", rcenv, env.Data());
   }
   return rc;
}

//______________________________________________________________________________
Int_t TProof::SendCurrentState(TList *list)
{
   // Transfer the current state of the master to the active slave servers.
   // The current state includes: the current working directory, etc.
   // Returns the number of active slaves. Returns -1 in case of error.

   if (!IsValid()) return -1;

   // Go to the new directory, reset the interpreter environment and
   // tell slave to delete all objects from its new current directory.
   Broadcast(gDirectory->GetPath(), kPROOF_RESET, list);

   return GetParallel();
}

//______________________________________________________________________________
Int_t TProof::SendCurrentState(ESlaves list)
{
   // Transfer the current state of the master to the active slave servers.
   // The current state includes: the current working directory, etc.
   // Returns the number of active slaves. Returns -1 in case of error.

   if (!IsValid()) return -1;

   // Go to the new directory, reset the interpreter environment and
   // tell slave to delete all objects from its new current directory.
   Broadcast(gDirectory->GetPath(), kPROOF_RESET, list);

   return GetParallel();
}

//______________________________________________________________________________
Int_t TProof::SendInitialState()
{
   // Transfer the initial (i.e. current) state of the master to all
   // slave servers. Currently the initial state includes: log level.
   // Returns the number of active slaves. Returns -1 in case of error.

   if (!IsValid()) return -1;

   SetLogLevel(fLogLevel, gProofDebugMask);

   return GetNumberOfActiveSlaves();
}

//______________________________________________________________________________
Bool_t TProof::CheckFile(const char *file, TSlave *slave, Long_t modtime, Int_t cpopt)
{
   // Check if a file needs to be send to the slave. Use the following
   // algorithm:
   //   - check if file appears in file map
   //     - if yes, get file's modtime and check against time in map,
   //       if modtime not same get md5 and compare against md5 in map,
   //       if not same return kTRUE.
   //     - if no, get file's md5 and modtime and store in file map, ask
   //       slave if file exists with specific md5, if yes return kFALSE,
   //       if no return kTRUE.
   // The options 'cpopt' define if to copy things from cache to sandbox and what.
   // To retrieve from the cache the binaries associated with the file TProof::kCpBin
   // must be set in cpopt; the default is copy everything.
   // Returns kTRUE in case file needs to be send, returns kFALSE in case
   // file is already on remote node.

   Bool_t sendto = kFALSE;

   // create worker based filename
   TString sn = slave->GetName();
   sn += ":";
   sn += slave->GetOrdinal();
   sn += ":";
   sn += gSystem->BaseName(file);

   // check if file is in map
   FileMap_t::const_iterator it;
   if ((it = fFileMap.find(sn)) != fFileMap.end()) {
      // file in map
      MD5Mod_t md = (*it).second;
      if (md.fModtime != modtime) {
         TMD5 *md5 = TMD5::FileChecksum(file);
         if (md5) {
            if ((*md5) != md.fMD5) {
               sendto       = kTRUE;
               md.fMD5      = *md5;
               md.fModtime  = modtime;
               fFileMap[sn] = md;
               // When on the master, the master and/or slaves may share
               // their file systems and cache. Therefore always make a
               // check for the file. If the file already exists with the
               // expected md5 the kPROOF_CHECKFILE command will cause the
               // file to be copied from cache to slave sandbox.
               if (TestBit(TProof::kIsMaster)) {
                  sendto = kFALSE;
                  TMessage mess(kPROOF_CHECKFILE);
                  mess << TString(gSystem->BaseName(file)) << md.fMD5 << cpopt;
                  slave->GetSocket()->Send(mess);

                  fCheckFileStatus = 0;
                  Collect(slave, fCollectTimeout, kPROOF_CHECKFILE);
                  sendto = (fCheckFileStatus == 0) ? kTRUE : kFALSE;
               }
            }
            delete md5;
         } else {
            Error("CheckFile", "could not calculate local MD5 check sum - dont send");
            return kFALSE;
         }
      }
   } else {
      // file not in map
      TMD5 *md5 = TMD5::FileChecksum(file);
      MD5Mod_t md;
      if (md5) {
         md.fMD5      = *md5;
         md.fModtime  = modtime;
         fFileMap[sn] = md;
         delete md5;
      } else {
         Error("CheckFile", "could not calculate local MD5 check sum - dont send");
         return kFALSE;
      }
      TMessage mess(kPROOF_CHECKFILE);
      mess << TString(gSystem->BaseName(file)) << md.fMD5 << cpopt;
      slave->GetSocket()->Send(mess);

      fCheckFileStatus = 0;
      Collect(slave, fCollectTimeout, kPROOF_CHECKFILE);
      sendto = (fCheckFileStatus == 0) ? kTRUE : kFALSE;
   }

   return sendto;
}

//______________________________________________________________________________
Int_t TProof::SendFile(const char *file, Int_t opt, const char *rfile, TSlave *wrk)
{
   // Send a file to master or slave servers. Returns number of slaves
   // the file was sent to, maybe 0 in case master and slaves have the same
   // file system image, -1 in case of error.
   // If defined, send to worker 'wrk' only.
   // If defined, the full path of the remote path will be rfile.
   // If rfile = "cache" the file is copied to the remote cache instead of the sandbox
   // (to copy to the cache on a different name use rfile = "cache:newname").
   // The mask 'opt' is an or of ESendFileOpt:
   //
   //       kAscii  (0x0)      if set true ascii file transfer is used
   //       kBinary (0x1)      if set true binary file transfer is used
   //       kForce  (0x2)      if not set an attempt is done to find out
   //                          whether the file really needs to be downloaded
   //                          (a valid copy may already exist in the cache
   //                          from a previous run); the bit is set by
   //                          UploadPackage, since the check is done elsewhere.
   //       kForward (0x4)     if set, ask server to forward the file to slave
   //                          or submaster (meaningless for slave servers).
   //       kCpBin   (0x8)     Retrieve from the cache the binaries associated
   //                          with the file
   //       kCp      (0x10)    Retrieve the files from the cache
   //

   if (!IsValid()) return -1;

   // Use the active slaves list ...
   TList *slaves = (rfile && !strcmp(rfile, "cache")) ? fUniqueSlaves : fActiveSlaves;
   // ... or the specified slave, if any
   if (wrk) {
      slaves = new TList();
      slaves->Add(wrk);
   }

   if (slaves->GetSize() == 0) return 0;

#ifndef R__WIN32
   Int_t fd = open(file, O_RDONLY);
#else
   Int_t fd = open(file, O_RDONLY | O_BINARY);
#endif
   if (fd < 0) {
      SysError("SendFile", "cannot open file %s", file);
      return -1;
   }

   // Get info about the file
   Long64_t size = -1;
   Long_t id, flags, modtime = 0;
   if (gSystem->GetPathInfo(file, &id, &size, &flags, &modtime) == 1) {
      Error("SendFile", "cannot stat file %s", file);
      close(fd);
      return -1;
   }
   if (size == 0) {
      Error("SendFile", "empty file %s", file);
      close(fd);
      return -1;
   }

   // Decode options
   Bool_t bin   = (opt & kBinary)  ? kTRUE : kFALSE;
   Bool_t force = (opt & kForce)   ? kTRUE : kFALSE;
   Bool_t fw    = (opt & kForward) ? kTRUE : kFALSE;

   // Copy options
   Int_t cpopt  = 0;
   if ((opt & kCp)) cpopt |= kCp;
   if ((opt & kCpBin)) cpopt |= (kCp | kCpBin);

   const Int_t kMAXBUF = 32768;  //16384  //65536;
   char buf[kMAXBUF];
   Int_t nsl = 0;

   TIter next(slaves);
   TSlave *sl;
   TString fnam(rfile);
   if (fnam == "cache") {
      fnam += TString::Format(":%s", gSystem->BaseName(file));
   } else if (fnam.IsNull()) {
      fnam = gSystem->BaseName(file);
   }
   // List on which we will collect the results
   fStatus = 0;
   while ((sl = (TSlave *)next())) {
      if (!sl->IsValid())
         continue;

      Bool_t sendto = force ? kTRUE : CheckFile(file, sl, modtime, cpopt);
      // Don't send the kPROOF_SENDFILE command to real slaves when sendto
      // is false. Masters might still need to send the file to newly added
      // slaves.
      PDB(kPackage,2) {
         const char *snd = (sl->fSlaveType == TSlave::kSlave && sendto) ? "" : "not";
         Info("SendFile", "%s sending file %s to: %s:%s (%d)", snd,
                    file, sl->GetName(), sl->GetOrdinal(), sendto);
      }
      if (sl->fSlaveType == TSlave::kSlave && !sendto)
         continue;
      // The value of 'size' is used as flag remotely, so we need to
      // reset it to 0 if we are not going to send the file
      Long64_t siz = sendto ? size : 0;
      snprintf(buf, kMAXBUF, "%s %d %lld %d", fnam.Data(), bin, siz, fw);
      if (sl->GetSocket()->Send(buf, kPROOF_SENDFILE) == -1) {
         MarkBad(sl, "could not send kPROOF_SENDFILE request");
         continue;
      }

      if (sendto) {

         lseek(fd, 0, SEEK_SET);

         Int_t len;
         do {
            while ((len = read(fd, buf, kMAXBUF)) < 0 && TSystem::GetErrno() == EINTR)
               TSystem::ResetErrno();

            if (len < 0) {
               SysError("SendFile", "error reading from file %s", file);
               Interrupt(kSoftInterrupt, kActive);
               close(fd);
               return -1;
            }

            if (len > 0 && sl->GetSocket()->SendRaw(buf, len) == -1) {
               SysError("SendFile", "error writing to slave %s:%s (now offline)",
                        sl->GetName(), sl->GetOrdinal());
               MarkBad(sl, "sendraw failure");
               sl = 0;
               break;
            }

         } while (len > 0);

         nsl++;
      }
      // Wait for the operation to be done
      if (sl)
         Collect(sl, fCollectTimeout, kPROOF_SENDFILE);
   }

   close(fd);

   // Cleanup temporary list, if any
   if (slaves != fActiveSlaves && slaves != fUniqueSlaves)
      SafeDelete(slaves);

   // We return failure is at least one unique worker failed
   return (fStatus != 0) ? -1 : nsl;
}

//______________________________________________________________________________
Int_t TProof::Echo(const TObject *obj)
{
   // Sends an object to master and workers and expect them to send back a
   // message with the output of its TObject::Print(). Returns -1 on error, the
   // number of workers that received the objects on success.

   if (!IsValid() || !obj) return -1;
   TMessage mess(kPROOF_ECHO);
   mess.WriteObject(obj);
   return Broadcast(mess);
}

//______________________________________________________________________________
Int_t TProof::Echo(const char *str)
{
   // Sends a string to master and workers and expect them to echo it back to
   // the client via a message. It is a special case of the generic Echo()
   // that works with TObjects. Returns -1 on error, the number of workers that
   // received the message on success.

   TObjString *os = new TObjString(str);
   Int_t rv = Echo(os);
   delete os;
   return rv;
}

//______________________________________________________________________________
Int_t TProof::SendObject(const TObject *obj, ESlaves list)
{
   // Send object to master or slave servers. Returns number of slaves object
   // was sent to, -1 in case of error.

   if (!IsValid() || !obj) return -1;

   TMessage mess(kMESS_OBJECT);

   mess.WriteObject(obj);
   return Broadcast(mess, list);
}

//______________________________________________________________________________
Int_t TProof::SendPrint(Option_t *option)
{
   // Send print command to master server. Returns number of slaves message
   // was sent to. Returns -1 in case of error.

   if (!IsValid()) return -1;

   Broadcast(option, kPROOF_PRINT, kActive);
   return Collect(kActive, fCollectTimeout);
}

//______________________________________________________________________________
void TProof::SetLogLevel(Int_t level, UInt_t mask)
{
   // Set server logging level.

   char str[32];
   fLogLevel        = level;
   gProofDebugLevel = level;
   gProofDebugMask  = (TProofDebug::EProofDebugMask) mask;
   snprintf(str, 32, "%d %u", level, mask);
   Broadcast(str, kPROOF_LOGLEVEL, kAll);
}

//______________________________________________________________________________
void TProof::SetRealTimeLog(Bool_t on)
{
   // Switch ON/OFF the real-time logging facility. When this option is
   // ON, log messages from processing are sent back as they come, instead of
   // being sent back at the end in one go. This may help debugging or monitoring
   // in some cases, but, depending on the amount of log, it may have significant
   // consequencies on the load over the network, so it must be used with care.

   if (IsValid()) {
      TMessage mess(kPROOF_REALTIMELOG);
      mess << on;
      Broadcast(mess);
   } else {
      Warning("SetRealTimeLog","session is invalid - do nothing");
   }
}

//______________________________________________________________________________
Int_t TProof::SetParallelSilent(Int_t nodes, Bool_t random)
{
   // Tell PROOF how many slaves to use in parallel. If random is TRUE a random
   // selection is done (if nodes is less than the available nodes).
   // Returns the number of parallel slaves. Returns -1 in case of error.

   if (!IsValid()) return -1;

   if (TestBit(TProof::kIsMaster)) {
      if (!fDynamicStartup) GoParallel(nodes, kFALSE, random);
      return SendCurrentState();
   } else {
      if (nodes < 0) {
         PDB(kGlobal,1) Info("SetParallelSilent", "request all nodes");
      } else {
         PDB(kGlobal,1) Info("SetParallelSilent", "request %d node%s", nodes,
                                                  nodes == 1 ? "" : "s");
      }
      TMessage mess(kPROOF_PARALLEL);
      mess << nodes << random;
      Broadcast(mess);
      Collect(kActive, fCollectTimeout);
      Int_t n = GetParallel();
      PDB(kGlobal,1) Info("SetParallelSilent", "got %d node%s", n, n == 1 ? "" : "s");
      return n;
   }
}

//______________________________________________________________________________
Int_t TProof::SetParallel(Int_t nodes, Bool_t random)
{
   // Tell PROOF how many slaves to use in parallel. Returns the number of
   // parallel slaves. Returns -1 in case of error.

   // If delayed startup reset settings, if required
   if (fDynamicStartup && nodes < 0) {
      if (gSystem->Getenv("PROOF_NWORKERS")) gSystem->Unsetenv("PROOF_NWORKERS");
   }

   Int_t n = SetParallelSilent(nodes, random);
   if (TestBit(TProof::kIsClient)) {
      if (n < 1) {
         Printf("PROOF set to sequential mode");
      } else {
         TString subfix = (n == 1) ? "" : "s";
         if (random)
            subfix += ", randomly selected";
         Printf("PROOF set to parallel mode (%d worker%s)", n, subfix.Data());
      }
   } else if (fDynamicStartup && nodes >= 0) {
      if (gSystem->Getenv("PROOF_NWORKERS")) gSystem->Unsetenv("PROOF_NWORKERS");
      gSystem->Setenv("PROOF_NWORKERS", TString::Format("%d", nodes));
   }
   return n;
}

//______________________________________________________________________________
Int_t TProof::GoMoreParallel(Int_t nWorkersToAdd)
{
   // Add nWorkersToAdd workers to current list of workers. This function is
   // works on the master only, and only when an analysis is ongoing. A message
   // is sent back to the client when we go "more" parallel.
   // Returns -1 on error, number of total (not added!) workers on success.

   if (!IsValid() || !IsMaster() || IsIdle()) {
      Error("GoMoreParallel", "can't invoke here -- should not happen!");
      return -1;
   }
   if (!gProofServ && !IsLite()) {
      Error("GoMoreParallel", "no ProofServ available nor Lite -- should not happen!");
      return -1;
   }

   TSlave *sl = 0x0;
   TIter next( fSlaves );
   Int_t nAddedWorkers = 0;

   while (((nAddedWorkers < nWorkersToAdd) || (nWorkersToAdd == -1)) &&
          (( sl = dynamic_cast<TSlave *>( next() ) ))) {

      // If worker is of an invalid type, break everything: it should not happen!
      if ((sl->GetSlaveType() != TSlave::kSlave) &&
          (sl->GetSlaveType() != TSlave::kMaster)) {
         Error("GoMoreParallel", "TSlave is neither a Master nor a Slave: %s:%s",
            sl->GetName(), sl->GetOrdinal());
         R__ASSERT(0);
      }

      // Skip current worker if it is not a good candidate
      if ((!sl->IsValid()) || (fBadSlaves->FindObject(sl)) ||
          (strcmp("IGNORE", sl->GetImage()) == 0)) {
         PDB(kGlobal, 2)
            Info("GoMoreParallel", "Worker %s:%s won't be considered",
               sl->GetName(), sl->GetOrdinal());
         continue;
      }

      // Worker is good but it is already active: skip it
      if (fActiveSlaves->FindObject(sl)) {
         Info("GoMoreParallel", "Worker %s:%s is already active: skipping",
            sl->GetName(), sl->GetOrdinal());
         continue;
      }

      //
      // From here on: worker is a good candidate
      //

      if (sl->GetSlaveType() == TSlave::kSlave) {
         sl->SetStatus(TSlave::kActive);
         fActiveSlaves->Add(sl);
         fInactiveSlaves->Remove(sl);
         fActiveMonitor->Add(sl->GetSocket());
         nAddedWorkers++;
         PDB(kGlobal, 2)
            Info("GoMoreParallel", "Worker %s:%s marked as active!",
               sl->GetName(), sl->GetOrdinal());
      }
      else {
         // Can't add masters dynamically: this should not happen!
         Error("GoMoreParallel", "Dynamic addition of master is not supported");
         R__ASSERT(0);
      }

   } // end loop over all slaves

   // Get slave status (will set the slaves fWorkDir correctly)
   PDB(kGlobal, 3)
      Info("GoMoreParallel", "Will invoke AskStatistics() -- implies a Collect()");
   AskStatistics();

   // Find active slaves with unique image
   PDB(kGlobal, 3)
      Info("GoMoreParallel", "Will invoke FindUniqueSlaves()");
   FindUniqueSlaves();

   // Send new group-view to slaves
   PDB(kGlobal, 3)
      Info("GoMoreParallel", "Will invoke SendGroupView()");
   SendGroupView();

   PDB(kGlobal, 3)
      Info("GoMoreParallel", "Will invoke GetParallel()");
   Int_t nTotalWorkers = GetParallel();

   // Notify the client that we've got more workers, and print info on
   // Master's log as well
   TString s;
   s.Form("PROOF just went more parallel (%d additional worker%s, %d worker%s total)",
      nAddedWorkers, (nAddedWorkers == 1) ? "" : "s",
      nTotalWorkers, (nTotalWorkers == 1) ? "" : "s");
   if (gProofServ) gProofServ->SendAsynMessage(s);   
   Info("GoMoreParallel", "%s", s.Data());

   return nTotalWorkers;
}

//______________________________________________________________________________
Int_t TProof::GoParallel(Int_t nodes, Bool_t attach, Bool_t random)
{
   // Go in parallel mode with at most "nodes" slaves. Since the fSlaves
   // list is sorted by slave performace the active list will contain first
   // the most performant nodes. Returns the number of active slaves.
   // If random is TRUE, and nodes is less than the number of available workers,
   // a random selection is done.
   // Returns -1 in case of error.

   if (!IsValid()) return -1;

   fActiveSlaves->Clear();
   fActiveMonitor->RemoveAll();

   // Prepare the list of candidates first.
   // Algorithm depends on random option.
   TSlave *sl = 0;
   TList *wlst = new TList;
   TIter nxt(fSlaves);
   fInactiveSlaves->Clear();
   while ((sl = (TSlave *)nxt())) {
      if (sl->IsValid() && !fBadSlaves->FindObject(sl)) {
         if (strcmp("IGNORE", sl->GetImage()) == 0) continue;
         if ((sl->GetSlaveType() != TSlave::kSlave) &&
             (sl->GetSlaveType() != TSlave::kMaster)) {
            Error("GoParallel", "TSlave is neither Master nor Slave");
            R__ASSERT(0);
         }
         // Good candidate
         wlst->Add(sl);
         // Set it inactive
         fInactiveSlaves->Add(sl);
         sl->SetStatus(TSlave::kInactive);
      }
   }
   Int_t nwrks = (nodes < 0 || nodes > wlst->GetSize()) ? wlst->GetSize() : nodes;
   int cnt = 0;
   fEndMaster = TestBit(TProof::kIsMaster) ? kTRUE : kFALSE;
   while (cnt < nwrks) {
      // Random choice, if requested
      if (random) {
         Int_t iwrk = (Int_t) (gRandom->Rndm() * wlst->GetSize());
         sl = (TSlave *) wlst->At(iwrk);
      } else {
         // The first available
         sl = (TSlave *) wlst->First();
      }
      if (!sl) {
         Error("GoParallel", "attaching to candidate!");
         break;
      }
      // Remove from the list
      wlst->Remove(sl);

      Int_t slavenodes = 0;
      if (sl->GetSlaveType() == TSlave::kSlave) {
         sl->SetStatus(TSlave::kActive);
         fActiveSlaves->Add(sl);
         fInactiveSlaves->Remove(sl);
         fActiveMonitor->Add(sl->GetSocket());
         slavenodes = 1;
      } else if (sl->GetSlaveType() == TSlave::kMaster) {
         fEndMaster = kFALSE;
         TMessage mess(kPROOF_PARALLEL);
         if (!attach) {
            Int_t nn = (nodes < 0) ? -1 : nodes-cnt;
            mess << nn;
         } else {
            // To get the number of slaves
            mess.SetWhat(kPROOF_LOGFILE);
            mess << -1 << -1;
         }
         if (sl->GetSocket()->Send(mess) == -1) {
            MarkBad(sl, "could not send kPROOF_PARALLEL or kPROOF_LOGFILE request");
            slavenodes = 0;
         } else {
            Collect(sl, fCollectTimeout);
            if (sl->IsValid()) {
               sl->SetStatus(TSlave::kActive);
               fActiveSlaves->Add(sl);
               fInactiveSlaves->Remove(sl);
               fActiveMonitor->Add(sl->GetSocket());
               if (sl->GetParallel() > 0) {
                  slavenodes = sl->GetParallel();
               } else {
                  // Sequential mode: the master acts as a worker
                  slavenodes = 1;
               }
            } else {
               MarkBad(sl, "collect failed after kPROOF_PARALLEL or kPROOF_LOGFILE request");
               slavenodes = 0;
            }
         }
      }
      // 'slavenodes' may be different than 1 in multimaster setups
      cnt += slavenodes;
   }

   // Cleanup list
   wlst->SetOwner(0);
   SafeDelete(wlst);

   // Get slave status (will set the slaves fWorkDir correctly)
   AskStatistics();

   // Find active slaves with unique image
   FindUniqueSlaves();

   // Send new group-view to slaves
   if (!attach)
      SendGroupView();

   Int_t n = GetParallel();

   if (TestBit(TProof::kIsClient)) {
      if (n < 1)
         printf("PROOF set to sequential mode\n");
      else
         printf("PROOF set to parallel mode (%d worker%s)\n",
                n, n == 1 ? "" : "s");
   }

   PDB(kGlobal,1) Info("GoParallel", "got %d node%s", n, n == 1 ? "" : "s");
   return n;
}

//______________________________________________________________________________
void TProof::ShowData()
{
   // List contents of the data directory in the sandbox.
   // This is the place where files produced by the client queries are kept

   if (!IsValid() || !fManager) return;

   // This is run via the manager
   fManager->Find("~/data", "-type f", "all");
}

//______________________________________________________________________________
void TProof::ClearData(UInt_t what, const char *dsname)
{
   // Remove files for the data directory.
   // The option 'what' can take the values:
   //     kPurge                 remove all files and directories under '~/data'
   //     kUnregistered          remove only files not in registered datasets (default)
   //     kDataset               remove files belonging to dataset 'dsname'
   // User is prompt for confirmation, unless kForceClear is ORed with the option

   if (!IsValid() || !fManager) return;

   // Check whether we need to prompt
   TString prompt, a("Y");
   Bool_t force = (what & kForceClear) ? kTRUE : kFALSE;
   Bool_t doask = (!force && IsTty()) ? kTRUE : kFALSE;

   // If all just send the request
   if ((what & TProof::kPurge)) {
      // Prompt, if requested
      if (doask && !Prompt("Do you really want to remove all data files")) return;
      if (fManager->Rm("~/data/*", "-rf", "all") < 0)
         Warning("ClearData", "problems purging data directory");
      return;
   } else if ((what & TProof::kDataset)) {
      // We must have got a name
      if (!dsname || strlen(dsname) <= 0) {
         Error("ClearData", "dataset name mandatory when removing a full dataset");
         return;
      }
      // Check if the dataset is registered
      if (!ExistsDataSet(dsname)) {
         Error("ClearData", "dataset '%s' does not exists", dsname);
         return;
      }
      // Get the file content
      TFileCollection *fc = GetDataSet(dsname);
      if (!fc) {
         Error("ClearData", "could not retrieve info about dataset '%s'", dsname);
         return;
      }
      // Prompt, if requested
      TString pmpt = TString::Format("Do you really want to remove all data files"
                                     " of dataset '%s'", dsname);
      if (doask && !Prompt(pmpt.Data())) return;

      // Loop through the files
      Bool_t rmds = kTRUE;
      TIter nxf(fc->GetList());
      TFileInfo *fi = 0;
      Int_t rfiles = 0, nfiles = fc->GetList()->GetSize();
      while ((fi = (TFileInfo *) nxf())) {
         // Fill the host info
         TString host, file;
         // Take info from the current url
         if (!(fi->GetFirstUrl())) {
            Error("ClearData", "GetFirstUrl() returns NULL for '%s' - skipping",
                               fi->GetName());
            continue;
         }
         TUrl uf(*(fi->GetFirstUrl()));
         file = uf.GetFile();
         host = uf.GetHost();
         // Now search for any "file:" url
         Int_t nurl = fi->GetNUrls();
         fi->ResetUrl();
         TUrl *up = 0;
         while (nurl-- && fi->NextUrl()) {
            up = fi->GetCurrentUrl();
            if (!strcmp(up->GetProtocol(), "file")) {
               TString opt(up->GetOptions());
               if (opt.BeginsWith("node=")) {
                  host=opt;
                  host.ReplaceAll("node=","");
                  file = up->GetFile();
                  break;
               }
            }
         }
         // Issue a remove request now
         if (fManager->Rm(file.Data(), "-f", host.Data()) != 0) {
            Error("ClearData", "problems removing '%s'", file.Data());
            // Some files not removed: keep the meta info about this dataset
            rmds = kFALSE;
         }
         rfiles++;
         ClearDataProgress(rfiles, nfiles);
      }
      fprintf(stderr, "\n");
      if (rmds) {
         // All files were removed successfully: remove also the dataset meta info
         RemoveDataSet(dsname);
      }
   } else if (what & TProof::kUnregistered) {

      // Get the existing files
      TString outtmp("ProofClearData_");
      FILE *ftmp = gSystem->TempFileName(outtmp);
      if (!ftmp) {
         Error("ClearData", "cannot create temp file for logs");
         return;
      }
      fclose(ftmp);
      RedirectHandle_t h;
      gSystem->RedirectOutput(outtmp.Data(), "w", &h);
      ShowData();
      gSystem->RedirectOutput(0, 0, &h);
      // Parse the output file now
      std::ifstream in;
      in.open(outtmp.Data());
      if (!in.is_open()) {
         Error("ClearData", "could not open temp file for logs: %s", outtmp.Data());
         gSystem->Unlink(outtmp);
         return;
      }
      // Go through
      Int_t nfiles = 0;
      TMap *afmap = new TMap;
      TString line, host, file;
      Int_t from = 0;
      while (in.good()) {
         line.ReadLine(in);
         if (line.IsNull()) continue;
         while (line.EndsWith("\n")) { line.Strip(TString::kTrailing, '\n'); }
         from = 0;
         host = "";
         if (!line.Tokenize(host, from, "| ")) continue;
         file = "";
         if (!line.Tokenize(file, from, "| ")) continue;
         if (!host.IsNull() && !file.IsNull()) {
            TList *fl = (TList *) afmap->GetValue(host.Data());
            if (!fl) {
               fl = new TList();
               fl->SetName(host);
               afmap->Add(new TObjString(host), fl);
            }
            fl->Add(new TObjString(file));
            nfiles++;
            PDB(kDataset,2)
               Info("ClearData", "added info for: h:%s, f:%s", host.Data(), file.Data());
         } else {
            Warning("ClearData", "found incomplete line: '%s'", line.Data());
         }
      }
      // Close and remove the file
      in.close();
      gSystem->Unlink(outtmp);

      // Get registered data files
      TString sel = TString::Format("/%s/%s/", GetGroup(), GetUser());
      TMap *fcmap = GetDataSets(sel);
      if (!fcmap || (fcmap && fcmap->GetSize() <= 0)) {
         PDB(kDataset,1)
         Warning("ClearData", "no dataset beloning to '%s'", sel.Data());
         SafeDelete(fcmap);
      }

      // Go thorugh and prepare the lists per node
      TString opt;
      TObjString *os = 0;
      if (fcmap) {
         TIter nxfc(fcmap);
         while ((os = (TObjString *) nxfc())) {
            TFileCollection *fc = 0;
            if ((fc = (TFileCollection *) fcmap->GetValue(os))) {
               TFileInfo *fi = 0;
               TIter nxfi(fc->GetList());
               while ((fi = (TFileInfo *) nxfi())) {
                  // Get special "file:" url
                  fi->ResetUrl();
                  Int_t nurl = fi->GetNUrls();
                  TUrl *up = 0;
                  while (nurl-- && fi->NextUrl()) {
                     up = fi->GetCurrentUrl();
                     if (!strcmp(up->GetProtocol(), "file")) {
                        opt = up->GetOptions();
                        if (opt.BeginsWith("node=")) {
                           host=opt;
                           host.ReplaceAll("node=","");
                           file = up->GetFile();
                           PDB(kDataset,2)
                              Info("ClearData", "found: host: %s, file: %s", host.Data(), file.Data());
                           // Remove this from the full list, if there
                           TList *fl = (TList *) afmap->GetValue(host.Data());
                           if (fl) {
                              TObjString *fn = (TObjString *) fl->FindObject(file.Data());
                              if (fn) {
                                 fl->Remove(fn);
                                 SafeDelete(fn);
                                 nfiles--;
                              } else {
                                 Warning("ClearData",
                                         "registered file '%s' not found in the full list!",
                                         file.Data());
                              }
                           }
                           break;
                        }
                     }
                  }
               }
            }
         }
         // Clean up the the received map
         if (fcmap) fcmap->SetOwner(kTRUE);
         SafeDelete(fcmap);
      }
      // List of the files to be removed
      Info("ClearData", "%d unregistered files to be removed:", nfiles);
      afmap->Print();
      // Prompt, if requested
      TString pmpt = TString::Format("Do you really want to remove all %d"
                                     " unregistered data files", nfiles);
      if (doask && !Prompt(pmpt.Data())) return;

      // Remove one by one; we may implement a bloc remove in the future
      Int_t rfiles = 0;
      TIter nxls(afmap);
      while ((os = (TObjString *) nxls())) {
         TList *fl = 0;
         if ((fl = (TList *) afmap->GetValue(os))) {
            TIter nxf(fl);
            TObjString *fn = 0;
            while ((fn = (TObjString *) nxf())) {
               // Issue a remove request now
               if (fManager->Rm(fn->GetName(), "-f", os->GetName()) != 0) {
                  Error("ClearData", "problems removing '%s' on host '%s'",
                                     fn->GetName(), os->GetName());
               }
               rfiles++;
               ClearDataProgress(rfiles, nfiles);
            }
         }
      }
      fprintf(stderr, "\n");
      // Final cleanup
      afmap->SetOwner(kTRUE);
      SafeDelete(afmap);
   }
}

//______________________________________________________________________________
Bool_t TProof::Prompt(const char *p)
{
   // Prompt the question 'p' requiring an answer y,Y,n,N
   // Return kTRUE is the answer was y or Y, kFALSE in all other cases.

   TString pp(p);
   if (!pp.Contains("?")) pp += "?";
   if (!pp.Contains("[y/N]")) pp += " [y/N]";
   TString a = Getline(pp.Data());
   if (a != "\n" && a[0] != 'y' &&  a[0] != 'Y' &&  a[0] != 'n' &&  a[0] != 'N') {
      Printf("Please answer y, Y, n or N");
      // Unclear answer: assume negative
      return kFALSE;
   } else if (a == "\n" || a[0] == 'n' ||  a[0] == 'N') {
      // Explicitly Negative answer
      return kFALSE;
   }
   // Explicitly Positive answer
   return kTRUE;
}

//______________________________________________________________________________
void TProof::ClearDataProgress(Int_t r, Int_t t)
{
   // Progress bar for clear data

   fprintf(stderr, "[TProof::ClearData] Total %5d files\t|", t);
   for (Int_t l = 0; l < 20; l++) {
      if (r > 0 && t > 0) {
         if (l < 20*r/t)
            fprintf(stderr, "=");
         else if (l == 20*r/t)
            fprintf(stderr, ">");
         else if (l > 20*r/t)
            fprintf(stderr, ".");
      } else
         fprintf(stderr, "=");
   }
   fprintf(stderr, "| %.02f %%      \r", 100.0*(t ? (r/t) : 1));
}

//______________________________________________________________________________
void TProof::ShowCache(Bool_t all)
{
   // List contents of file cache. If all is true show all caches also on
   // slaves. If everything is ok all caches are to be the same.

   if (!IsValid()) return;

   TMessage mess(kPROOF_CACHE);
   mess << Int_t(kShowCache) << all;
   Broadcast(mess, kUnique);

   if (all) {
      TMessage mess2(kPROOF_CACHE);
      mess2 << Int_t(kShowSubCache) << all;
      Broadcast(mess2, fNonUniqueMasters);

      Collect(kAllUnique, fCollectTimeout);
   } else {
      Collect(kUnique, fCollectTimeout);
   }
}

//______________________________________________________________________________
void TProof::ClearCache(const char *file)
{
   // Remove file from all file caches. If file is 0 or "" or "*", remove all
   // the files

   if (!IsValid()) return;

   TMessage mess(kPROOF_CACHE);
   mess << Int_t(kClearCache) << TString(file);
   Broadcast(mess, kUnique);

   TMessage mess2(kPROOF_CACHE);
   mess2 << Int_t(kClearSubCache) << TString(file);
   Broadcast(mess2, fNonUniqueMasters);

   Collect(kAllUnique);

   // clear file map so files get send again to remote nodes
   fFileMap.clear();
}

//______________________________________________________________________________
void TProof::SystemCmd(const char *cmd, Int_t fdout)
{
   // Exec system command 'cmd'. If fdout > -1, append the output to fdout.

   if (fdout < 0) {
      // Exec directly the command
      gSystem->Exec(cmd);
   } else {
      // Exec via a pipe
      FILE *fin = gSystem->OpenPipe(cmd, "r");
      if (fin) {
         // Now we go
         char line[2048];
         while (fgets(line, 2048, fin)) {
            Int_t r = strlen(line);
            if (r > 0) {
               if (write(fdout, line, r) < 0) {
                  ::Warning("TProof::SystemCmd",
                            "errno %d writing to file descriptor %d",
                            TSystem::GetErrno(), fdout);
               }
            } else {
               // Done
               break;
            }
         }
         gSystem->ClosePipe(fin);
      }
   }
}

//______________________________________________________________________________
void TProof::ShowPackages(Bool_t all, Bool_t redirlog)
{
   // List contents of package directory. If all is true show all package
   // directories also on slaves. If everything is ok all package directories
   // should be the same. If redir is kTRUE the result is redirected to the log
   // file (option available for internal actions).

   if (!IsValid()) return;

   Bool_t oldredir = fRedirLog;
   if (redirlog) fRedirLog = kTRUE;

   // Active logging unit
   FILE *fout = (fRedirLog) ? fLogFileW : stdout;
   if (!fout) {
      Warning("ShowPackages", "file descriptor for outputs undefined (%p):"
              " will not log msgs", fout);
      return;
   }
   lseek(fileno(fout), (off_t) 0, SEEK_END);

   if (TestBit(TProof::kIsClient)) {
      if (fGlobalPackageDirList && fGlobalPackageDirList->GetSize() > 0) {
         // Scan the list of global packages dirs
         TIter nxd(fGlobalPackageDirList);
         TNamed *nm = 0;
         while ((nm = (TNamed *)nxd())) {
            fprintf(fout, "*** Global Package cache %s client:%s ***\n",
                           nm->GetName(), nm->GetTitle());
            fflush(fout);
            SystemCmd(TString::Format("%s %s", kLS, nm->GetTitle()), fileno(fout));
            fprintf(fout, "\n");
            fflush(fout);
         }
      }
      fprintf(fout, "*** Package cache client:%s ***\n", fPackageDir.Data());
      fflush(fout);
      SystemCmd(TString::Format("%s %s", kLS, fPackageDir.Data()), fileno(fout));
      fprintf(fout, "\n");
   }

   // Nothing more to do if we are a Lite-session
   if (IsLite()) {
      fRedirLog = oldredir;
      return;
   }

   TMessage mess(kPROOF_CACHE);
   mess << Int_t(kShowPackages) << all;
   Broadcast(mess, kUnique);

   if (all) {
      TMessage mess2(kPROOF_CACHE);
      mess2 << Int_t(kShowSubPackages) << all;
      Broadcast(mess2, fNonUniqueMasters);

      Collect(kAllUnique, fCollectTimeout);
   } else {
      Collect(kUnique, fCollectTimeout);
   }
   // Restore logging option
   fRedirLog = oldredir;
}

//______________________________________________________________________________
void TProof::ShowEnabledPackages(Bool_t all)
{
   // List which packages are enabled. If all is true show enabled packages
   // for all active slaves. If everything is ok all active slaves should
   // have the same packages enabled.

   if (!IsValid()) return;

   if (TestBit(TProof::kIsClient)) {
      printf("*** Enabled packages on client on %s\n", gSystem->HostName());
      TIter next(fEnabledPackagesOnClient);
      while (TObjString *str = (TObjString*) next())
         printf("%s\n", str->GetName());
   }

   // Nothing more to do if we are a Lite-session
   if (IsLite()) return;

   TMessage mess(kPROOF_CACHE);
   mess << Int_t(kShowEnabledPackages) << all;
   Broadcast(mess);
   Collect(kActive, fCollectTimeout);
}

//______________________________________________________________________________
Int_t TProof::ClearPackages()
{
   // Remove all packages.
   // Returns 0 in case of success and -1 in case of error.

   if (!IsValid()) return -1;

   if (UnloadPackages() == -1)
      return -1;

   if (DisablePackages() == -1)
      return -1;

   return fStatus;
}

//______________________________________________________________________________
Int_t TProof::ClearPackage(const char *package)
{
   // Remove a specific package.
   // Returns 0 in case of success and -1 in case of error.

   if (!IsValid()) return -1;

   if (!package || !package[0]) {
      Error("ClearPackage", "need to specify a package name");
      return -1;
   }

   // if name, erroneously, is a par pathname strip off .par and path
   TString pac = package;
   if (pac.EndsWith(".par"))
      pac.Remove(pac.Length()-4);
   pac = gSystem->BaseName(pac);

   if (UnloadPackage(pac) == -1)
      return -1;

   if (DisablePackage(pac) == -1)
      return -1;

   return fStatus;
}

//______________________________________________________________________________
Int_t TProof::DisablePackage(const char *package)
{
   // Remove a specific package.
   // Returns 0 in case of success and -1 in case of error.

   if (!IsValid()) return -1;

   if (!package || !package[0]) {
      Error("DisablePackage", "need to specify a package name");
      return -1;
   }

   // if name, erroneously, is a par pathname strip off .par and path
   TString pac = package;
   if (pac.EndsWith(".par"))
      pac.Remove(pac.Length()-4);
   pac = gSystem->BaseName(pac);

   if (DisablePackageOnClient(pac) == -1)
      return -1;

   // Nothing more to do if we are a Lite-session
   if (IsLite()) return 0;

   Int_t st = -1;
   Bool_t done = kFALSE;
   if (fManager) {
      // Try to do it via XROOTD (new way)
      TString path;
      path.Form("~/packages/%s", package);
      if (fManager->Rm(path, "-rf", "all") != -1) {
         path.Append(".par");
         if (fManager->Rm(path, "-f", "all") != -1) {
            done = kTRUE;
            st = 0;
         }
      }
   }
   if (!done) {
      // Try via TProofServ (old way)
      TMessage mess(kPROOF_CACHE);
      mess << Int_t(kDisablePackage) << pac;
      Broadcast(mess, kUnique);

      TMessage mess2(kPROOF_CACHE);
      mess2 << Int_t(kDisableSubPackage) << pac;
      Broadcast(mess2, fNonUniqueMasters);

      Collect(kAllUnique);
      st = fStatus;
   }

   // Done
   return st;
}

//______________________________________________________________________________
Int_t TProof::DisablePackageOnClient(const char *pack)
{
   // Remove a specific package 'pack' from the client.
   // Returns 0 in case of success and -1 in case of error.

   TString s;
   if (TestBit(TProof::kIsClient)) {
      // Remove the package directory and the par file locally
      fPackageLock->Lock();
      s.Form("%s %s/%s", kRM, fPackageDir.Data(), pack);
      gSystem->Exec(s.Data());
      s.Form("%s %s/%s.par", kRM, fPackageDir.Data(), pack);
      gSystem->Exec(s.Data());
      s.Form("%s %s/%s/%s.par", kRM, fPackageDir.Data(), kPROOF_PackDownloadDir, pack);
      gSystem->Exec(s.Data());
      fPackageLock->Unlock();
      // Check the result
      s.Form("%s/%s/%s.par", fPackageDir.Data(), kPROOF_PackDownloadDir, pack);
      if (!gSystem->AccessPathName(s.Data()))
         Warning("DisablePackageOnClient",
                 "unable to remove cached package PAR file for %s (%s)", pack, s.Data());
      s.Form("%s/%s.par", fPackageDir.Data(), pack);
      if (!gSystem->AccessPathName(s.Data()))
         Warning("DisablePackageOnClient",
                 "unable to remove package PAR file for %s (%s)", pack, s.Data());
      s.Form("%s/%s", fPackageDir.Data(), pack);
      if (!gSystem->AccessPathName(s.Data()))
         Warning("DisablePackageOnClient",
                 "unable to remove package directory for %s (%s)", pack, s.Data());
   }

   return 0;
}

//______________________________________________________________________________
Int_t TProof::DisablePackages()
{
   // Remove all packages.
   // Returns 0 in case of success and -1 in case of error.

   if (!IsValid()) return -1;

   // remove all packages on client
   if (TestBit(TProof::kIsClient)) {
      fPackageLock->Lock();
      gSystem->Exec(TString::Format("%s %s/*", kRM, fPackageDir.Data()));
      fPackageLock->Unlock();
   }

   // Nothing more to do if we are a Lite-session
   if (IsLite()) return 0;

   Int_t st = -1;
   Bool_t done = kFALSE;
   if (fManager) {
      // Try to do it via XROOTD (new way)
      if (fManager->Rm("~/packages/*", "-rf", "all") != -1) {
         done = kTRUE;
         st = 0;
      }
   }
   if (!done) {

      TMessage mess(kPROOF_CACHE);
      mess << Int_t(kDisablePackages);
      Broadcast(mess, kUnique);

      TMessage mess2(kPROOF_CACHE);
      mess2 << Int_t(kDisableSubPackages);
      Broadcast(mess2, fNonUniqueMasters);

      Collect(kAllUnique);
      st = fStatus;
   }

   // Done
   return st;
}

//______________________________________________________________________________
Int_t TProof::BuildPackage(const char *package,
                           EBuildPackageOpt opt, Int_t chkveropt, TList *workers)
{
   // Build specified package. Executes the PROOF-INF/BUILD.sh
   // script if it exists on all unique nodes. If opt is kBuildOnSlavesNoWait
   // then submit build command to slaves, but don't wait
   // for results. If opt is kCollectBuildResults then collect result
   // from slaves. To be used on the master.
   // If opt = kBuildAll (default) then submit and wait for results
   // (to be used on the client).
   // Returns 0 in case of success and -1 in case of error.

   if (!IsValid()) return -1;

   if (!package || !package[0]) {
      Error("BuildPackage", "need to specify a package name");
      return -1;
   }

   // if name, erroneously, is a par pathname strip off .par and path
   TString pac = package;
   if (pac.EndsWith(".par"))
      pac.Remove(pac.Length()-4);
   pac = gSystem->BaseName(pac);

   Bool_t buildOnClient = kTRUE;
   if (opt == kDontBuildOnClient) {
      buildOnClient = kFALSE;
      opt = kBuildAll;
   }
   // Prepare the local package
   TString pdir;
   Int_t st = 0;
   if (buildOnClient) {
      if (TestBit(TProof::kIsClient) && fPackageLock) fPackageLock->Lock();
      if ((st = BuildPackageOnClient(pac, 1, &pdir, chkveropt) != 0)) {
         if (TestBit(TProof::kIsClient) && fPackageLock) fPackageLock->Unlock();
         return -1;
      }
   }

   if (opt <= kBuildAll && (!IsLite() || !buildOnClient)) {
      if (workers) {
         TMessage mess(kPROOF_CACHE);
         mess << Int_t(kBuildPackage) << pac << chkveropt;
         Broadcast(mess, workers);

      } else {
         TMessage mess(kPROOF_CACHE);
         mess << Int_t(kBuildPackage) << pac << chkveropt;
         Broadcast(mess, kUnique);

         TMessage mess2(kPROOF_CACHE);
         mess2 << Int_t(kBuildSubPackage) << pac << chkveropt;
         Broadcast(mess2, fNonUniqueMasters);
      }
   }

   if (opt >= kBuildAll) {
      // by first forwarding the build commands to the master and slaves
      // and only then building locally we build in parallel
      if (buildOnClient) {
         st = BuildPackageOnClient(pac, 2, &pdir, chkveropt);
         if (TestBit(TProof::kIsClient) && fPackageLock) fPackageLock->Unlock();
      }


      fStatus = 0;
      if (!IsLite() || !buildOnClient) {

        // On the master, workers that fail are deactivated
        // Bool_t deactivateOnFailure = (IsMaster()) ? kTRUE : kFALSE;
         if (workers) {
//            Collect(workers, -1, -1, deactivateOnFailure);
            Collect(workers);
         } else {
            Collect(kAllUnique);
         }
      }

      if (fStatus < 0 || st < 0)
         return -1;
   }

   return 0;
}

//______________________________________________________________________________
Int_t TProof::BuildPackageOnClient(const char *pack, Int_t opt, TString *path, Int_t chkveropt)
{
   // Build specified package on the client. Executes the PROOF-INF/BUILD.sh
   // script if it exists on the client.
   // If opt == 0, both the preparation and building phases are run.
   // If opt == 1, only the preparation phase (asserting and, eventually, downloading
   //              of the package) is done; '*path' contains the full path to the
   //              package to be passed in the next call
   // If opt == 2, only the building phase is run using *path .
   // Returns 0 in case of success and -1 in case of error.
   // The code is equivalent to the one in TProofServ.cxx (TProof::kBuildPackage
   // case). Keep in sync in case of changes.

   TString downloaddir;
   downloaddir.Form("%s/%s", fPackageDir.Data(), kPROOF_PackDownloadDir);

   if (opt != 0 && !path) {
      Error("BuildPackageOnClient", "for opt=%d != 0 'patyh' must be defined", opt);
      return -1;
   }

   if (TestBit(TProof::kIsClient)) {
      Int_t status = 0;
      TString pdir, ocwd;

      if (opt == 0 || opt == 1) {
         // Package path
         pdir.Form("%s/%s", fPackageDir.Data(), pack);
         if (gSystem->AccessPathName(pdir, kReadPermission) ||
            gSystem->AccessPathName(pdir + "/PROOF-INF", kReadPermission)) {
            pdir = "";
            // Is there a global package with this name?
            if (fGlobalPackageDirList && fGlobalPackageDirList->GetSize() > 0) {
               // Scan the list of global packages dirs
               TIter nxd(fGlobalPackageDirList);
               TNamed *nm = 0;
               while ((nm = (TNamed *)nxd())) {
                  pdir = Form("%s/%s", nm->GetTitle(), pack);
                  if (!gSystem->AccessPathName(pdir, kReadPermission) &&
                     !gSystem->AccessPathName(pdir + "/PROOF-INF", kReadPermission)) {
                     // Package found, stop searching
                     break;
                  }
                  pdir = "";
               }
            }
         } else {
            // Check if the related PAR file still exists (private versions could have gone:
            // in such a case we should take the reference from the repository, by first cleaning
            // the existing directory)
            TString tpar(pdir);
            if (!tpar.EndsWith(".par")) tpar += ".par";
            Bool_t badPAR = kTRUE;
            FileStat_t stpar;
            if (gSystem->GetPathInfo(tpar, stpar) == 0) {
#ifndef WIN32
               char ctmp[1024];
               if (!R_ISLNK(stpar.fMode) || readlink(tpar.Data(), ctmp, 1024) > 0) {
                  // The file exists
                  badPAR = kFALSE;
               }
#else
               // The file exists
               badPAR = kFALSE;
#endif
            }
            // Cleanup, if bad
            if (badPAR) {
               // Remove package directory
               gSystem->Exec(TString::Format("%s %s", kRM, pdir.Data()));
               // Remove link or bad file
               gSystem->Exec(TString::Format("%s %s", kRM, tpar.Data()));
               // Reset variable
               pdir = "";
            }
         }
         // Check if the package was downloaded from the master
         Bool_t wasDownloaded = kFALSE;
         TString dlpar;
         dlpar.Form("%s/%s", downloaddir.Data(), gSystem->BaseName(pack));
         if (!dlpar.EndsWith(".par")) dlpar += ".par";
         if (!pdir.IsNull()) {
            if (!gSystem->AccessPathName(dlpar, kFileExists))
               wasDownloaded = kTRUE;
         }
         if (pdir.IsNull() || wasDownloaded) {
            // Try to download it
            if (DownloadPackage(pack, downloaddir) != 0) {
               Error("BuildPackageOnClient",
                     "PAR file '%s.par' not found and could not be downloaded", pack);
               return -1;
            } else {
               TMD5 *md5 = TMD5::FileChecksum(dlpar);
               if (UploadPackageOnClient(dlpar, kUntar, md5) == -1) {
                  Error("BuildPackageOnClient",
                        "PAR file '%s.par' not found and could not be unpacked locally", pack);
                  delete md5;
                  return -1;
               }
               delete md5;
               // The package is now linked from the default package dir
               pdir.Form("%s/%s", fPackageDir.Data(), pack);
            }
         } else if (pdir.IsNull()) {
            Error("BuildPackageOnClient", "PAR file '%s.par' not found", pack);
            return -1;
         }
         PDB(kPackage, 1)
            Info("BuildPackageOnClient", "package %s exists and has PROOF-INF directory", pack);
         // We are done if only prepare was requested
         if (opt == 1) {
            *path = pdir;
            return 0;
         }
      }

      if (opt == 0 || opt == 2) {
         if (opt == 2) pdir = path->Data();

         ocwd = gSystem->WorkingDirectory();
         gSystem->ChangeDirectory(pdir);

         // check for BUILD.sh and execute
         if (!gSystem->AccessPathName("PROOF-INF/BUILD.sh")) {

            // read version from file proofvers.txt, and if current version is
            // not the same do a "BUILD.sh clean"
            Bool_t goodver = kTRUE;
            Bool_t savever = kFALSE;
            TString v, r;
            FILE *f = fopen("PROOF-INF/proofvers.txt", "r");
            if (f) {
               v.Gets(f);
               r.Gets(f);
               fclose(f);
               if (chkveropt == kCheckROOT || chkveropt == kCheckSVN) {
                  if (v != gROOT->GetVersion()) goodver = kFALSE;
                  if (goodver && chkveropt == kCheckSVN)
                     if (r != gROOT->GetGitCommit()) goodver = kFALSE;
               }
            }
            if (!f || !goodver) {
               savever = kTRUE;
               Info("BuildPackageOnClient",
                  "%s: version change (current: %s:%s, build: %s:%s): cleaning ... ",
                  pack, gROOT->GetVersion(), gROOT->GetGitCommit(), v.Data(), r.Data());
               // Hard cleanup: go up the dir tree
               gSystem->ChangeDirectory(fPackageDir);
               // remove package directory
               gSystem->Exec(TString::Format("%s %s", kRM, pdir.Data()));
               // find gunzip...
               char *gunzip = gSystem->Which(gSystem->Getenv("PATH"), kGUNZIP, kExecutePermission);
               if (gunzip) {
                  TString par = TString::Format("%s.par", pdir.Data());
                  // untar package
                  TString cmd(TString::Format(kUNTAR3, gunzip, par.Data()));
                  status = gSystem->Exec(cmd);
                  if ((status = gSystem->Exec(cmd))) {
                     Error("BuildPackageOnClient", "failure executing: %s", cmd.Data());
                  } else {
                     // Go down to the package directory
                     gSystem->ChangeDirectory(pdir);
                  }
                  delete [] gunzip;
               } else {
                  Error("BuildPackageOnClient", "%s not found", kGUNZIP);
                  status = -1;
               }
            }

            if (gSystem->Exec("export ROOTPROOFCLIENT=\"1\" ; PROOF-INF/BUILD.sh")) {
               Error("BuildPackageOnClient", "building package %s on the client failed", pack);
               status = -1;
            }

            if (savever && !status) {
               f = fopen("PROOF-INF/proofvers.txt", "w");
               if (f) {
                  fputs(gROOT->GetVersion(), f);
                  fputs(TString::Format("\n%s", gROOT->GetGitCommit()), f);
                  fclose(f);
               }
            }
         } else {
            PDB(kPackage, 1)
               Info("BuildPackageOnClient",
                  "package %s exists but has no PROOF-INF/BUILD.sh script", pack);
         }

         gSystem->ChangeDirectory(ocwd);

         return status;
      }
   }
   return 0;
}

//______________________________________________________________________________
Int_t TProof::LoadPackage(const char *package, Bool_t notOnClient,
   TList *loadopts, TList *workers)
{
   // Load specified package. Executes the PROOF-INF/SETUP.C script
   // on all active nodes. If notOnClient = true, don't load package
   // on the client. The default is to load the package also on the client.
   // The argument 'loadopts' specify a list of objects to be passed to the SETUP.
   // The objects in the list must be streamable; the SETUP macro will be executed
   // like this: SETUP.C(loadopts).
   // Returns 0 in case of success and -1 in case of error.

   if (!IsValid()) return -1;

   if (!package || !package[0]) {
      Error("LoadPackage", "need to specify a package name");
      return -1;
   }

   // if name, erroneously, is a par pathname strip off .par and path
   TString pac = package;
   if (pac.EndsWith(".par"))
      pac.Remove(pac.Length()-4);
   pac = gSystem->BaseName(pac);

   if (!notOnClient)
      if (LoadPackageOnClient(pac, loadopts) == -1)
         return -1;

   TMessage mess(kPROOF_CACHE);
   mess << Int_t(kLoadPackage) << pac;
   if (loadopts) mess << loadopts;

   // On the master, workers that fail are deactivated
   Bool_t deactivateOnFailure = (IsMaster()) ? kTRUE : kFALSE;

   Bool_t doCollect = (fDynamicStartup && !IsIdle()) ? kFALSE : kTRUE;

   if (workers) {
      PDB(kPackage, 3)
         Info("LoadPackage", "Sending load message to selected workers only");
      Broadcast(mess, workers);
      if (doCollect) Collect(workers, -1, -1, deactivateOnFailure);
   } else {
      Broadcast(mess);
      Collect(kActive, -1, -1, deactivateOnFailure);
   }

   return fStatus;
}

//______________________________________________________________________________
Int_t TProof::LoadPackageOnClient(const char *pack, TList *loadopts)
{
   // Load specified package in the client. Executes the PROOF-INF/SETUP.C
   // script on the client. Returns 0 in case of success and -1 in case of error.
   // The code is equivalent to the one in TProofServ.cxx (TProof::kLoadPackage
   // case). Keep in sync in case of changes.
   // The argument 'loadopts' specify a list of objects to be passed to the SETUP.
   // The objects in the list must be streamable; the SETUP macro will be executed
   // like this: SETUP.C(loadopts).
   // Returns 0 in case of success and -1 in case of error.

   if (TestBit(TProof::kIsClient)) {
      Int_t status = 0;
      TString pdir, ocwd;
      // If already loaded don't do it again
      if (fEnabledPackagesOnClient->FindObject(pack)) {
         Info("LoadPackageOnClient", "package %s already loaded", pack);
         return 0;
      }

      // always follows BuildPackage so no need to check for PROOF-INF
      pdir.Form("%s/%s", fPackageDir.Data(), pack);

      if (gSystem->AccessPathName(pdir, kReadPermission)) {
         // Is there a global package with this name?
         if (fGlobalPackageDirList && fGlobalPackageDirList->GetSize() > 0) {
            // Scan the list of global packages dirs
            TIter nxd(fGlobalPackageDirList);
            TNamed *nm = 0;
            while ((nm = (TNamed *)nxd())) {
               pdir.Form("%s/%s", nm->GetTitle(), pack);
               if (!gSystem->AccessPathName(pdir, kReadPermission)) {
                  // Package found, stop searching
                  break;
               }
               pdir = "";
            }
            if (pdir.Length() <= 0) {
               // Package not found
               Error("LoadPackageOnClient", "failure locating %s ...", pack);
               return -1;
            }
         }
      }

      ocwd = gSystem->WorkingDirectory();
      gSystem->ChangeDirectory(pdir);

      // check for SETUP.C and execute
      if (!gSystem->AccessPathName("PROOF-INF/SETUP.C")) {

         // We need to change the name of the function to avoid problems when we load more packages
         TString setup;
         setup.Form("SETUP_%d_%x", gSystem->GetPid(), TString(pack).Hash());
         // setupfn.Form("%s/%s.C", gSystem->TempDirectory(), setup.Data());
         TMacro setupmc("PROOF-INF/SETUP.C");
         TObjString *setupline = setupmc.GetLineWith("SETUP(");
         if (setupline) {
            TString setupstring(setupline->GetString());
            setupstring.ReplaceAll("SETUP(", TString::Format("%s(", setup.Data()));
            setupline->SetString(setupstring);
         } else {
            // Macro does not contain SETUP()
            Warning("LoadPackageOnClient", "macro '%s/PROOF-INF/SETUP.C' does not contain a SETUP()"
                                           " function", pack);
         }

         if (!setupmc.Load()) {
            // Macro could not be loaded
            Error("LoadPackageOnClient", "macro '%s/PROOF-INF/SETUP.C' could not be loaded:"
                                         " cannot continue", pack);
            status = -1;
         } else {
            // Check the signature
            TFunction *fun = (TFunction *) gROOT->GetListOfGlobalFunctions()->FindObject(setup);
            if (!fun) {
               // Notify the upper level
               Error("LoadPackageOnClient", "function SETUP() not found in macro '%s/PROOF-INF/SETUP.C':"
                                            " cannot continue", pack);
               status = -1;
            } else {
               TMethodCall callEnv;
               // Check the number of arguments
               if (fun->GetNargs() == 0) {
                  // No arguments (basic signature)
                  callEnv.Init(fun);
                  // Warn that the argument (if any) if ignored
                  if (loadopts)
                     Warning("LoadPackageOnClient", "loaded SETUP() does not take any argument:"
                                                    " the specified TList object will be ignored");
               } else if (fun->GetNargs() == 1) {
                  TMethodArg *arg = (TMethodArg *) fun->GetListOfMethodArgs()->First();
                  if (arg) {
                     callEnv.Init(fun);
                     // Check argument type
                     TString argsig(arg->GetTitle());
                     if (argsig.BeginsWith("TList")) {
                        callEnv.ResetParam();
                        callEnv.SetParam((Long_t) loadopts);
                     } else if (argsig.BeginsWith("const char")) {
                        callEnv.ResetParam();
                        TObjString *os = loadopts ? dynamic_cast<TObjString *>(loadopts->First()) : 0;
                        if (os) {
                           callEnv.SetParam((Long_t) os->GetName());
                        } else {
                           if (loadopts && loadopts->First()) {
                              Warning("LoadPackageOnClient", "found object argument of type %s:"
                                                             " SETUP expects 'const char *': ignoring",
                                                             loadopts->First()->ClassName());
                           }
                           callEnv.SetParam((Long_t) 0);
                        }
                     } else {
                        // Notify the upper level
                        Error("LoadPackageOnClient", "unsupported SETUP signature: SETUP(%s)"
                                                     " cannot continue", arg->GetTitle());
                        status = -1;
                     }
                  } else {
                     // Notify the upper level
                     Error("LoadPackageOnClient", "cannot get information about the SETUP() argument:"
                                                  " cannot continue");
                     status = -1;
                  }
               } else if (fun->GetNargs() > 1) {
                  // Notify the upper level
                  Error("LoadPackageOnClient", "function SETUP() can have at most a 'TList *' argument:"
                                               " cannot continue");
                  status = -1;
               }
               // Execute
               Long_t setuprc = (status == 0) ? 0 : -1;
               if (status == 0) {
                  callEnv.Execute(setuprc);
                  if (setuprc < 0) status = -1;
               }
            }
         }
      } else {
         PDB(kPackage, 1)
            Info("LoadPackageOnClient",
                 "package %s exists but has no PROOF-INF/SETUP.C script", pack);
      }

      gSystem->ChangeDirectory(ocwd);

      if (status == 0) {

         // Add package directory to list of include directories to be searched by ACliC
         gSystem->AddIncludePath(TString("-I") + pdir);

         // add package directory to list of include directories to be searched by CINT
         gROOT->ProcessLine(TString(".I ") + pdir);

         fEnabledPackagesOnClient->Add(new TObjString(pack));
         PDB(kPackage, 1)
            Info("LoadPackageOnClient", "package %s successfully loaded", pack);
      } else
         Error("LoadPackageOnClient", "loading package %s on client failed", pack);

      return status;
   }
   return 0;
}

//______________________________________________________________________________
Int_t TProof::UnloadPackage(const char *package)
{
   // Unload specified package.
   // Returns 0 in case of success and -1 in case of error.

   if (!IsValid()) return -1;

   if (!package || !package[0]) {
      Error("UnloadPackage", "need to specify a package name");
      return -1;
   }

   // if name, erroneously, is a par pathname strip off .par and path
   TString pac = package;
   if (pac.EndsWith(".par"))
      pac.Remove(pac.Length()-4);
   pac = gSystem->BaseName(pac);

   if (UnloadPackageOnClient(pac) == -1)
      return -1;

   // Nothing more to do if we are a Lite-session
   if (IsLite()) return 0;

   TMessage mess(kPROOF_CACHE);
   mess << Int_t(kUnloadPackage) << pac;
   Broadcast(mess);
   Collect();

   return fStatus;
}

//______________________________________________________________________________
Int_t TProof::UnloadPackageOnClient(const char *package)
{
   // Unload a specific package on the client.
   // Returns 0 in case of success and -1 in case of error.
   // The code is equivalent to the one in TProofServ.cxx (TProof::UnloadPackage
   // case). Keep in sync in case of changes.

   if (TestBit(TProof::kIsClient)) {
      TObjString *pack = (TObjString *) fEnabledPackagesOnClient->FindObject(package);
      if (pack) {
         // Remove entry from include path
         TString aclicincpath = gSystem->GetIncludePath();
         TString cintincpath = gInterpreter->GetIncludePath();
         // remove interpreter part of gSystem->GetIncludePath()
         aclicincpath.Remove(aclicincpath.Length() - cintincpath.Length() - 1);
         // remove package's include path
         aclicincpath.ReplaceAll(TString(" -I") + package, "");
         gSystem->SetIncludePath(aclicincpath);

         //TODO reset interpreter include path

         // remove entry from enabled packages list
         fEnabledPackagesOnClient->Remove(pack);
      }

      // cleanup the link
      if (!gSystem->AccessPathName(package))
         if (gSystem->Unlink(package) != 0)
            Warning("UnloadPackageOnClient", "unable to remove symlink to %s", package);

      // delete entry
      delete pack;
   }
   return 0;
}

//______________________________________________________________________________
Int_t TProof::UnloadPackages()
{
   // Unload all packages.
   // Returns 0 in case of success and -1 in case of error.

   if (!IsValid()) return -1;

   if (TestBit(TProof::kIsClient)) {
      // Iterate over packages on the client and remove each package
      TIter nextpackage(fEnabledPackagesOnClient);
      while (TObjString *objstr = dynamic_cast<TObjString*>(nextpackage()))
         if (UnloadPackageOnClient(objstr->String()) == -1 )
            return -1;
   }

   // Nothing more to do if we are a Lite-session
   if (IsLite()) return 0;

   TMessage mess(kPROOF_CACHE);
   mess << Int_t(kUnloadPackages);
   Broadcast(mess);
   Collect();

   return fStatus;
}

//______________________________________________________________________________
Int_t TProof::EnablePackage(const char *package, Bool_t notOnClient,
   TList *workers)
{
   // Enable specified package. Executes the PROOF-INF/BUILD.sh
   // script if it exists followed by the PROOF-INF/SETUP.C script.
   // In case notOnClient = true, don't enable the package on the client.
   // The default is to enable packages also on the client.
   // If specified, enables packages only on the specified workers.
   // Returns 0 in case of success and -1 in case of error.
   // Provided for backward compatibility.

   return EnablePackage(package, (TList *)0, notOnClient, workers);
}

//______________________________________________________________________________
Int_t TProof::EnablePackage(const char *package, const char *loadopts,
                            Bool_t notOnClient, TList *workers)
{
   // Enable specified package. Executes the PROOF-INF/BUILD.sh
   // script if it exists followed by the PROOF-INF/SETUP.C script.
   // In case notOnClient = true, don't enable the package on the client.
   // The default is to enable packages also on the client.
   // It is is possible to specify options for the loading step via 'loadopts';
   // the string will be passed passed as argument to SETUP.
   // Special option 'chkv=<o>' (or 'checkversion=<o>') can be used to control
   // plugin version checking during building: possible choices are:
   //     off         no check; failure may occur at loading
   //     on          check ROOT version [default]
   //     svn         check ROOT version and Git commit SHA1.
   // (Use ';', ' ' or '|' to separate 'chkv=<o>' from the rest.)
   // If specified, enables packages only on the specified workers.
   // Returns 0 in case of success and -1 in case of error.

   TList *optls = 0;
   if (loadopts && strlen(loadopts)) {
      if (fProtocol > 28) {
         TObjString *os = new TObjString(loadopts);
         // Filter out 'checkversion=off|on|svn' or 'chkv=...'
         os->String().ReplaceAll("checkversion=", "chkv=");
         Ssiz_t fcv = kNPOS, lcv = kNPOS;
         if ((fcv = os->String().Index("chkv=")) !=  kNPOS) {
            TRegexp re("[; |]");
            if ((lcv = os->String().Index(re, fcv)) == kNPOS) {
               lcv = os->String().Length();
            }
            TString ocv = os->String()(fcv, lcv - fcv);
            Int_t cvopt = -1;
            if (ocv.EndsWith("=off") || ocv.EndsWith("=0"))
               cvopt = (Int_t) kDontCheck;
            else if (ocv.EndsWith("=on") || ocv.EndsWith("=1"))
               cvopt = (Int_t) kCheckROOT;
            else if (ocv.EndsWith("=svn") || ocv.EndsWith("=2"))
               cvopt = (Int_t) kCheckSVN;
            else
               Warning("EnablePackage", "'checkversion' option unknown from argument: '%s' - ignored", ocv.Data());
            if (cvopt > -1) {
               if (gDebug > 0)
                  Info("EnablePackage", "setting check version option from argument: %d", cvopt);
               optls = new TList;
               optls->Add(new TParameter<Int_t>("PROOF_Package_CheckVersion", (Int_t) cvopt));
               // Remove the special option from; we leave a separator if there were two (one before and one after)
               if (lcv != kNPOS && fcv == 0) ocv += os->String()[lcv];
               if (fcv > 0 && os->String().Index(re, fcv - 1) == fcv - 1) os->String().Remove(fcv - 1, 1);
               os->String().ReplaceAll(ocv.Data(), "");
            }
         }
         if (!os->String().IsNull()) {
            if (!optls) optls = new TList;
            optls->Add(new TObjString(os->String().Data()));
         }
         if (optls) optls->SetOwner(kTRUE);
      } else {
         // Notify
         Warning("EnablePackage", "remote server does not support options: ignoring the option string");
      }
   }
   // Run
   Int_t rc = EnablePackage(package, optls, notOnClient, workers);
   // Clean up
   SafeDelete(optls);
   // Done
   return rc;
}

//______________________________________________________________________________
Int_t TProof::EnablePackage(const char *package, TList *loadopts,
                            Bool_t notOnClient, TList *workers)
{
   // Enable specified package. Executes the PROOF-INF/BUILD.sh
   // script if it exists followed by the PROOF-INF/SETUP.C script.
   // In case notOnClient = true, don't enable the package on the client.
   // The default is to enable packages also on the client.
   // It is is possible to specify a list of objects to be passed to the SETUP
   // functions via 'loadopts'; the objects must be streamable.
   // Returns 0 in case of success and -1 in case of error.

   if (!IsValid()) return -1;

   if (!package || !package[0]) {
      Error("EnablePackage", "need to specify a package name");
      return -1;
   }

   // if name, erroneously, is a par pathname strip off .par and path
   TString pac = package;
   if (pac.EndsWith(".par"))
      pac.Remove(pac.Length()-4);
   pac = gSystem->BaseName(pac);

   EBuildPackageOpt opt = kBuildAll;
   if (notOnClient)
      opt = kDontBuildOnClient;

   // Get check version option; user settings have priority
   Int_t chkveropt = kCheckROOT;
   TString ocv = gEnv->GetValue("Proof.Package.CheckVersion", "");
   if (!ocv.IsNull()) {
      if (ocv == "off" || ocv == "0")
         chkveropt = (Int_t) kDontCheck;
      else if (ocv == "on" || ocv == "1")
         chkveropt = (Int_t) kCheckROOT;
      else if (ocv == "svn" || ocv == "2")
         chkveropt = (Int_t) kCheckSVN;
      else
         Warning("EnablePackage", "'checkversion' option unknown from rootrc: '%s' - ignored", ocv.Data());
   }
   if (loadopts) {
      TParameter<Int_t> *pcv = (TParameter<Int_t> *) loadopts->FindObject("PROOF_Package_CheckVersion");
      if (pcv) {
         chkveropt = pcv->GetVal();
         loadopts->Remove(pcv);
         delete pcv;
      }
   }
  if (gDebug > 0)
      Info("EnablePackage", "using check version option: %d", chkveropt);
   
   if (BuildPackage(pac, opt, chkveropt, workers) == -1)
      return -1;

   TList *optls = (loadopts && loadopts->GetSize() > 0) ? loadopts : 0;
   if (optls && fProtocol <= 28) {
      Warning("EnablePackage", "remote server does not support options: ignoring the option list");
      optls = 0;
   }

   if (LoadPackage(pac, notOnClient, optls, workers) == -1)
      return -1;

   // Record the information for later usage (simulation of dynamic start on PROOF-Lite)
   if (!fEnabledPackagesOnCluster->FindObject(pac)) {
      TPair *pck = (optls && optls->GetSize() > 0) ? new TPair(new TObjString(pac), optls->Clone())
                                                   : new TPair(new TObjString(pac), 0);
      fEnabledPackagesOnCluster->Add(pck);
   }

   return 0;
}

//______________________________________________________________________________
Int_t TProof::DownloadPackage(const char *pack, const char *dstdir)
{
   // Download a PROOF archive (PAR file) from the master package repository.
   // The PAR file is downloaded in the current directory or in the directory
   // specified by 'dstdir'. If a package with the same name already exists
   // at destination, a check on the MD5 sum is done and the user warned or
   // prompted for action, depending is the file is equal or different.
   // Returns 0 in case of success and -1 in case of error.

   if (!fManager || !(fManager->IsValid())) {
      Error("DownloadPackage", "the manager is undefined!");
      return -1;
   }

   // Create the default source and destination paths
   TString parname(gSystem->BaseName(pack)), src, dst;
   if (!parname.EndsWith(".par")) parname += ".par";
   src.Form("packages/%s", parname.Data());
   if (!dstdir || strlen(dstdir) <= 0) {
      dst.Form("./%s", parname.Data());
   } else {
      // Check the destination directory
      FileStat_t st;
      if (gSystem->GetPathInfo(dstdir, st) != 0) {
         // Directory does not exit: create it
         if (gSystem->mkdir(dstdir, kTRUE) != 0) {
            Error("DownloadPackage",
                  "could not create the destination directory '%s' (errno: %d)",
                   dstdir, TSystem::GetErrno());
            return -1;
         }
      } else if (!R_ISDIR(st.fMode) && !R_ISLNK(st.fMode)) {
         Error("DownloadPackage",
               "destination path '%s' exist but is not a directory!", dstdir);
         return -1;
      }
      dst.Form("%s/%s", dstdir, parname.Data());
   }

   // Make sure the source file exists
   FileStat_t stsrc;
   RedirectHandle_t rh;
   if (gSystem->RedirectOutput(fLogFileName, "a", &rh) != 0)
      Warning("DownloadPackage", "problems redirecting output to '%s'", fLogFileName.Data());
   Int_t rc = fManager->Stat(src, stsrc);
   if (gSystem->RedirectOutput(0, 0, &rh) != 0)
      Warning("DownloadPackage", "problems restoring output");
   if (rc != 0) {
      // Check if there is another possible source
      ShowPackages(kFALSE, kTRUE);
      TMacro *mp = GetLastLog();
      if (mp) {
         // Look for global directories
         Bool_t isGlobal = kFALSE;
         TIter nxl(mp->GetListOfLines());
         TObjString *os = 0;
         TString globaldir;
         while ((os = (TObjString *) nxl())) {
            TString s(os->GetName());
            if (s.Contains("*** Global Package cache")) {
               // Get the directory
               s.Remove(0, s.Last(':') + 1);
               s.Remove(s.Last(' '));
               globaldir = s;
               isGlobal = kTRUE;
            } else if (s.Contains("*** Package cache")) {
               isGlobal = kFALSE;
               globaldir = "";
            }
            // Check for the package
            if (isGlobal && s.Contains(parname)) {
               src.Form("%s/%s", globaldir.Data(), parname.Data());
               break;
            }
         }
         // Cleanup
         delete mp;
      }
   }

   // Do it via the manager
   if (fManager->GetFile(src, dst, "silent") != 0) {
      Error("DownloadPackage", "problems downloading '%s' (src:%s, dst:%s)",
                                pack, src.Data(), dst.Data());
      return -1;
   } else {
      Info("DownloadPackage", "'%s' cross-checked against master repository (local path: %s)",
                                pack, dst.Data());
   }
   // Done
   return 0;
}

//______________________________________________________________________________
Int_t TProof::UploadPackage(const char *pack, EUploadPackageOpt opt,
   TList *workers)
{
   // Upload a PROOF archive (PAR file). A PAR file is a compressed
   // tar file with one special additional directory, PROOF-INF
   // (blatantly copied from Java's jar format). It must have the extension
   // .par. A PAR file can be directly a binary or a source with a build
   // procedure. In the PROOF-INF directory there can be a build script:
   // BUILD.sh to be called to build the package, in case of a binary PAR
   // file don't specify a build script or make it a no-op. Then there is
   // SETUP.C which sets the right environment variables to use the package,
   // like LD_LIBRARY_PATH, etc.
   // The 'opt' allows to specify whether the .PAR should be just unpacked
   // in the existing dir (opt = kUntar, default) or a remove of the existing
   // directory should be executed (opt = kRemoveOld), so triggering a full
   // re-build. The option if effective only for PROOF protocol > 8 .
   // The lab 'dirlab' (e.g. 'G0') indicates that the package is to uploaded to
   // an alternative global directory for global usage. This may require special
   // privileges.
   // If download is kTRUE and the package is not found locally, then it is downloaded
   // from the master repository.
   // Returns 0 in case of success and -1 in case of error.

   if (!IsValid()) return -1;

   TString par(pack), base, name;
   if (par.EndsWith(".par")) {
      base = gSystem->BaseName(par);
      name = base(0, base.Length() - strlen(".par"));
   } else {
      name = gSystem->BaseName(par);
      base.Form("%s.par", name.Data());
      par += ".par";
   }

   // Default location is the local working dir; then the package dir
   gSystem->ExpandPathName(par);
   if (gSystem->AccessPathName(par, kReadPermission)) {
      TString tried = par;
      // Try the package dir
      par.Form("%s/%s", fPackageDir.Data(), base.Data());
      if (gSystem->AccessPathName(par, kReadPermission)) {
         // Is the package a global one
         if (fGlobalPackageDirList && fGlobalPackageDirList->GetSize() > 0) {
            // Scan the list of global packages dirs
            TIter nxd(fGlobalPackageDirList);
            TNamed *nm = 0;
            TString pdir;
            while ((nm = (TNamed *)nxd())) {
               pdir.Form("%s/%s", nm->GetTitle(), name.Data());
               if (!gSystem->AccessPathName(pdir, kReadPermission)) {
                  // Package found, stop searching
                  break;
               }
               pdir = "";
            }
            if (pdir.Length() > 0) {
               // Package is in the global dirs
               if (gDebug > 0)
                  Info("UploadPackage", "global package found (%s): no upload needed",
                                        pdir.Data());
               return 0;
            }
         }
         Error("UploadPackage", "PAR file '%s' not found; paths tried: %s, %s",
                                gSystem->BaseName(par), tried.Data(), par.Data());
         return -1;
      }
   }

   // Strategy:
   // On the client:
   // get md5 of package and check if it is different
   // from the one stored in the local package directory. If it is lock
   // the package directory and copy the package, unlock the directory.
   // On the masters:
   // get md5 of package and check if it is different from the
   // one stored on the remote node. If it is different lock the remote
   // package directory and use TFTP or SendFile to ftp the package to the
   // remote node, unlock the directory.

   TMD5 *md5 = TMD5::FileChecksum(par);

   if (TestBit(TProof::kIsClient)) {
      if (!md5 || (md5 && UploadPackageOnClient(par, opt, md5) == -1)) {
         if (md5) delete md5;
         return -1;
      }
   }

   // Nothing more to do if we are a Lite-session
   if (IsLite()) {
      delete md5;
      return 0;
   }

   TString smsg;
   smsg.Form("+%s", base.Data());

   TMessage mess(kPROOF_CHECKFILE);
   mess << smsg << (*md5);
   TMessage mess2(kPROOF_CHECKFILE);
   smsg.Replace(0, 1, "-");
   mess2 << smsg << (*md5);
   TMessage mess3(kPROOF_CHECKFILE);
   smsg.Replace(0, 1, "=");
   mess3 << smsg << (*md5);

   delete md5;

   if (fProtocol > 8) {
      // Send also the option
      mess << (UInt_t) opt;
      mess2 << (UInt_t) opt;
      mess3 << (UInt_t) opt;
   }

   // Loop over all slaves with unique fs image, or to a selected
   // list of workers, if specified
   if (!workers)
      workers = fUniqueSlaves;
   TIter next(workers);
   TSlave *sl = 0;
   while ((sl = (TSlave *) next())) {
      if (!sl->IsValid())
         continue;

      sl->GetSocket()->Send(mess);

      fCheckFileStatus = 0;
      Collect(sl, fCollectTimeout, kPROOF_CHECKFILE);
      if (fCheckFileStatus == 0) {

         if (fProtocol > 5) {
            // remote directory is locked, upload file over the open channel
            smsg.Form("%s/%s/%s", sl->GetProofWorkDir(), kPROOF_PackDir, base.Data());
            if (SendFile(par, (kBinary | kForce | kCpBin | kForward), smsg.Data(), sl) < 0) {
               Error("UploadPackage", "%s: problems uploading file %s",
                                      sl->GetOrdinal(), par.Data());
               return -1;
            }
         } else {
            // old servers receive it via TFTP
            TFTP ftp(TString("root://")+sl->GetName(), 1);
            if (!ftp.IsZombie()) {
               smsg.Form("%s/%s", sl->GetProofWorkDir(), kPROOF_PackDir);
               ftp.cd(smsg.Data());
               ftp.put(par, base.Data());
            }
         }

         // install package and unlock dir
         sl->GetSocket()->Send(mess2);
         fCheckFileStatus = 0;
         Collect(sl, fCollectTimeout, kPROOF_CHECKFILE);
         if (fCheckFileStatus == 0) {
            Error("UploadPackage", "%s: unpacking of package %s failed",
                                   sl->GetOrdinal(), base.Data());
            return -1;
         }
      }
   }

   // loop over all other master nodes
   TIter nextmaster(fNonUniqueMasters);
   TSlave *ma;
   while ((ma = (TSlave *) nextmaster())) {
      if (!ma->IsValid())
         continue;

      ma->GetSocket()->Send(mess3);

      fCheckFileStatus = 0;
      Collect(ma, fCollectTimeout, kPROOF_CHECKFILE);
      if (fCheckFileStatus == 0) {
         // error -> package should have been found
         Error("UploadPackage", "package %s did not exist on submaster %s",
               base.Data(), ma->GetOrdinal());
         return -1;
      }
   }

   return 0;
}

//______________________________________________________________________________
Int_t TProof::UploadPackageOnClient(const char *parpack, EUploadPackageOpt opt, TMD5 *md5)
{
   // Upload a package on the client in ~/.proof/packages.
   // The 'opt' allows to specify whether the .PAR should be just unpacked
   // in the existing dir (opt = kUntar, default) or a remove of the existing
   // directory should be executed (opt = kRemoveOld), thereby triggering a full
   // re-build. This option if effective only for PROOF protocol > 8.
   // Returns 0 in case of success and -1 in case of error.

   // Strategy:
   // get md5 of package and check if it is different
   // from the one stored in the local package directory. If it is lock
   // the package directory and copy the package, unlock the directory.

   Int_t status = 0;

   if (TestBit(TProof::kIsClient)) {
      // Make sure that 'par' is the real path and not a symlink
      TString par(parpack);
#ifndef WIN32
      char ctmp[4096];
      ssize_t sz = readlink(par.Data(), ctmp, 4096);
      if (sz >= 4096) sz = 4095;
      if (sz > 0) {
         ctmp[sz] = '\0';
         par = ctmp;
      } else if (TSystem::GetErrno() != EINVAL) {
         Warning("UploadPackageOnClient",
                 "could not resolve the symbolik link '%s'", par.Data());
      }
#endif
      // The fPackageDir directory exists (has been created in Init());
      // create symlink to the par file in the fPackageDir (needed by
      // master in case we run on the localhost)
      fPackageLock->Lock();

      // Check if the requested PAR has been downloaded: if not, clean any
      // existing downloaded file with the same name: this is because now
      // the client has its own version of the package and should not check
      // the master repository anymore for updates
      TString downloadpath;
      downloadpath.Form("%s/%s/%s", fPackageDir.Data(),
                        kPROOF_PackDownloadDir, gSystem->BaseName(par));
      if (!gSystem->AccessPathName(downloadpath, kFileExists) && downloadpath != par) {
         if (gSystem->Unlink(downloadpath) != 0) {
            Warning("UploadPackageOnClient",
                    "problems removing downloaded version of '%s' (%s):\n"
                    "may imply inconsistencies in subsequent updates",
                    gSystem->BaseName(par), downloadpath.Data());
         }
      }
      TString lpar;
      lpar.Form("%s/%s", fPackageDir.Data(), gSystem->BaseName(par));
      FileStat_t stat;
      Int_t st = gSystem->GetPathInfo(lpar, stat);
      // check if symlink, if so unlink, if not give error
      // NOTE: GetPathInfo() returns 1 in case of symlink that does not point to
      // existing file, but if fIsLink is true the symlink exists
      if (stat.fIsLink)
         gSystem->Unlink(lpar);
      else if (st == 0) {
         Error("UploadPackageOnClient", "cannot create symlink %s on client, "
               "another item with same name already exists",
               lpar.Data());
         fPackageLock->Unlock();
         return -1;
      }
      if (!gSystem->IsAbsoluteFileName(par)) {
         TString fpar = par;
         gSystem->Symlink(gSystem->PrependPathName(gSystem->WorkingDirectory(), fpar), lpar);
      } else
         gSystem->Symlink(par, lpar);
      // TODO: On Windows need to copy instead of symlink

      TString cmd;
      // Compare md5
      TString packnam = par(0, par.Length() - 4);  // strip off ".par"
      packnam = gSystem->BaseName(packnam);        // strip off path
      TString md5f = fPackageDir + "/" + packnam + "/PROOF-INF/md5.txt";
      TMD5 *md5local = TMD5::ReadChecksum(md5f);
      if (!md5local || (*md5) != (*md5local)) {
         // if not, unzip and untar package in package directory
         if ((opt & TProof::kRemoveOld)) {
            // remove any previous package directory with same name
            cmd.Form("%s %s/%s", kRM, fPackageDir.Data(), packnam.Data());
            if (gSystem->Exec(cmd.Data()))
               Error("UploadPackageOnClient", "failure executing: %s", cmd.Data());
         }
         // find gunzip
         char *gunzip = gSystem->Which(gSystem->Getenv("PATH"), kGUNZIP,
                                       kExecutePermission);
         if (gunzip) {
            // untar package
            cmd.Form(kUNTAR2, gunzip, par.Data(), fPackageDir.Data());
            if (gSystem->Exec(cmd.Data()))
               Error("Uploadpackage", "failure executing: %s", cmd.Data());
            delete [] gunzip;
         } else
            Error("UploadPackageOnClient", "%s not found", kGUNZIP);

         // check that fPackageDir/packnam now exists
         if (gSystem->AccessPathName(fPackageDir + "/" + packnam, kWritePermission)) {
            // par file did not unpack itself in the expected directory, failure
            Error("UploadPackageOnClient",
                  "package %s did not unpack into %s/%s", par.Data(), fPackageDir.Data(),
                  packnam.Data());
            status = -1;
         } else {
            // store md5 in package/PROOF-INF/md5.txt
            TMD5::WriteChecksum(md5f, md5);
         }
      }
      fPackageLock->Unlock();
      delete md5local;
   }
   return status;
}

//______________________________________________________________________________
Int_t TProof::Load(const char *macro, Bool_t notOnClient, Bool_t uniqueWorkers,
                   TList *wrks)
{
   // Load the specified macro on master, workers and, if notOnClient is
   // kFALSE, on the client. The macro file is uploaded if new or updated.
   // Additional files to be uploaded (or updated, if needed) can be specified
   // after a comma, e.g. "mymacro.C+,thisheader.h,thatheader.h".
   // If existing in the same directory, a header basename(macro).h or .hh, is also
   // uploaded.
   // The default is to load the macro also on the client; notOnClient can be used
   // to avoid loading on the client.
   // On masters, if uniqueWorkers is kTRUE, the macro is loaded on unique workers
   // only, and collection is not done; if uniqueWorkers is kFALSE, collection
   // from the previous request is done, and broadcasting + collection from the
   // other workers is done.
   // The wrks arg can be used on the master to limit the set of workers.
   // Returns 0 in case of success and -1 in case of error.

   if (!IsValid()) return -1;

   if (!macro || !macro[0]) {
      Error("Load", "need to specify a macro name");
      return -1;
   }

   if (TestBit(TProof::kIsClient) && !wrks) {

      // Extract the file implementation name first
      TString addsname, implname = macro;
      Ssiz_t icom = implname.Index(",");
      if (icom != kNPOS) {
         addsname = implname(icom + 1, implname.Length());
         implname.Remove(icom);
      }
      TString basemacro = gSystem->BaseName(implname), mainmacro(implname);
      TString bmsg(basemacro), acmode, args, io;
      implname = gSystem->SplitAclicMode(implname, acmode, args, io);

      // Macro names must have a standard format
      Int_t dot = implname.Last('.');
      if (dot == kNPOS) {
         Info("Load", "macro '%s' does not contain a '.': do nothing", macro);
         return -1;
      }

      // Is there any associated header file
      Bool_t hasHeader = kTRUE;
      TString headname = implname;
      headname.Remove(dot);
      headname += ".h";
      if (gSystem->AccessPathName(headname, kReadPermission)) {
         TString h = headname;
         headname.Remove(dot);
         headname += ".hh";
         if (gSystem->AccessPathName(headname, kReadPermission)) {
            hasHeader = kFALSE;
            if (gDebug > 0)
               Info("Load", "no associated header file found: tried: %s %s",
                            h.Data(), headname.Data());
         }
      }

      // Is there any additional file ?
      TString addincs;
      TList addfiles;
      if (!addsname.IsNull()) {
         TString fn;
         Int_t from = 0;
         while (addsname.Tokenize(fn, from, ",")) {
            if (gSystem->AccessPathName(fn, kReadPermission)) {
               Error("Load", "additional file '%s' not found", fn.Data());
               return -1;
            }
            // Create the additional include statement
            if (!notOnClient) {
               TString dirn(gSystem->DirName(fn));
               if (addincs.IsNull()) {
                  addincs.Form("-I%s", dirn.Data());
               } else if (!addincs.Contains(dirn)) {
                  addincs += TString::Format(" -I%s", dirn.Data());
               }
            }
            // Remember these files ...
            addfiles.Add(new TObjString(fn));
         }
      }

      // Send files now; the md5 check is run here; see SendFile for more
      // details.
      if (SendFile(implname, kAscii | kForward , "cache") == -1) {
         Error("Load", "problems sending implementation file %s", implname.Data());
         return -1;
      }
      if (hasHeader)
         if (SendFile(headname, kAscii | kForward , "cache") == -1) {
            Error("Load", "problems sending header file %s", headname.Data());
            return -1;
         }
      // Additional files
      if (addfiles.GetSize() > 0) {
         TIter nxfn(&addfiles);
         TObjString *os = 0;
         while ((os = (TObjString *) nxfn())) {
            // These files need to be available everywhere, cache and sandbox
            if (SendFile(os->GetName(), kAscii | kForward, "cache") == -1) {
               Error("Load", "problems sending additional file %s", os->GetName());
               return -1;
            }
            // Add the base names to the message broadcasted
            bmsg += TString::Format(",%s", gSystem->BaseName(os->GetName()));
         }
         addfiles.SetOwner(kTRUE);
      }

      // The files are now on the workers: now we send the loading request
      TMessage mess(kPROOF_CACHE);
      if (GetRemoteProtocol() < 34) {
         mess << Int_t(kLoadMacro) << basemacro;
         // This may be needed
         AddIncludePath("../../cache");
      } else {
         mess << Int_t(kLoadMacro) << bmsg;
      }
      Broadcast(mess, kActive);

      // Load locally, if required
      if (!notOnClient) {
         // Mofify the include path
         TString oldincs = gSystem->GetIncludePath();
         if (!addincs.IsNull()) gSystem->AddIncludePath(addincs);

         // By first forwarding the load command to the master and workers
         // and only then loading locally we load/build in parallel
         gROOT->ProcessLine(TString::Format(".L %s", mainmacro.Data()));

         // Restore include path
         if (!addincs.IsNull()) gSystem->SetIncludePath(oldincs);

         // Update the macro path
         TString mp(TROOT::GetMacroPath());
         TString np(gSystem->DirName(macro));
         if (!np.IsNull()) {
            np += ":";
            if (!mp.BeginsWith(np) && !mp.Contains(":"+np)) {
               Int_t ip = (mp.BeginsWith(".:")) ? 2 : 0;
               mp.Insert(ip, np);
               TROOT::SetMacroPath(mp);
               if (gDebug > 0)
                  Info("Load", "macro path set to '%s'", TROOT::GetMacroPath());
            }
         }
      }

      // Wait for master and workers to be done
      Collect(kActive);

      if (IsLite()) {
         PDB(kGlobal, 1) Info("Load", "adding loaded macro: %s", macro);
         if (!fLoadedMacros) {
            fLoadedMacros = new TList();
            fLoadedMacros->SetOwner();
         }
         // if wrks is specified the macro should already be loaded on the master.
         fLoadedMacros->Add(new TObjString(macro));
      }

   } else {
      // On master

      // The files are now on the workers: now we send the loading request first
      // to the unique workers, so that the eventual compilation occurs only once.
      TString basemacro = gSystem->BaseName(macro);
      TMessage mess(kPROOF_CACHE);

      if (uniqueWorkers) {
         mess << Int_t(kLoadMacro) << basemacro;
         if (wrks) {
            Broadcast(mess, wrks);
            Collect(wrks);
         } else {
            Broadcast(mess, kUnique);
         }
      } else {
         // Wait for the result of the previous sending
         Collect(kUnique);

         // We then send a tuned loading request to the other workers
         TList others;
         TSlave *wrk = 0;
         TIter nxw(fActiveSlaves);
         while ((wrk = (TSlave *)nxw())) {
            if (!fUniqueSlaves->FindObject(wrk)) {
               others.Add(wrk);
            }
         }

         // Do not force compilation, if it was requested
         Int_t ld = basemacro.Last('.');
         if (ld != kNPOS) {
            Int_t lpp = basemacro.Index("++", ld);
            if (lpp != kNPOS) basemacro.Replace(lpp, 2, "+");
         }
         mess << Int_t(kLoadMacro) << basemacro;
         Broadcast(mess, &others);
         Collect(&others);
      }

      PDB(kGlobal, 1) Info("Load", "adding loaded macro: %s", macro);
      if (!fLoadedMacros) {
         fLoadedMacros = new TList();
         fLoadedMacros->SetOwner();
      }
      // if wrks is specified the macro should already be loaded on the master.
      if (!wrks)
         fLoadedMacros->Add(new TObjString(macro));
   }

   // Done
   return 0;
}

//______________________________________________________________________________
Int_t TProof::AddDynamicPath(const char *libpath, Bool_t onClient, TList *wrks,
   Bool_t doCollect)
{
   // Add 'libpath' to the lib path search.
   // Multiple paths can be specified at once separating them with a comma or
   // a blank.
   // Return 0 on success, -1 otherwise

   if ((!libpath || !libpath[0])) {
      if (gDebug > 0)
         Info("AddDynamicPath", "list is empty - nothing to do");
      return 0;
   }

   // Do it also on clients, if required
   if (onClient)
      HandleLibIncPath("lib", kTRUE, libpath);

   TMessage m(kPROOF_LIB_INC_PATH);
   m << TString("lib") << (Bool_t)kTRUE;

   // Add paths
   if (libpath && strlen(libpath)) {
      m << TString(libpath);
   } else {
      m << TString("-");
   }

   // Tell the server to send back or not
   m << (Int_t)doCollect;

   // Forward the request
   if (wrks) {
      Broadcast(m, wrks);
      if (doCollect)
         Collect(wrks, fCollectTimeout);
   } else {
      Broadcast(m);
      Collect(kActive, fCollectTimeout);
   }

   return 0;
}

//______________________________________________________________________________
Int_t TProof::AddIncludePath(const char *incpath, Bool_t onClient, TList *wrks,
   Bool_t doCollect)
{
   // Add 'incpath' to the inc path search.
   // Multiple paths can be specified at once separating them with a comma or
   // a blank.
   // Return 0 on success, -1 otherwise

   if ((!incpath || !incpath[0])) {
      if (gDebug > 0)
         Info("AddIncludePath", "list is empty - nothing to do");
      return 0;
   }

   // Do it also on clients, if required
   if (onClient)
      HandleLibIncPath("inc", kTRUE, incpath);

   TMessage m(kPROOF_LIB_INC_PATH);
   m << TString("inc") << (Bool_t)kTRUE;

   // Add paths
   if (incpath && strlen(incpath)) {
      m << TString(incpath);
   } else {
      m << TString("-");
   }

   // Tell the server to send back or not
   m << (Int_t)doCollect;

   // Forward the request
   if (wrks) {
      Broadcast(m, wrks);
      if (doCollect)
         Collect(wrks, fCollectTimeout);
   } else {
      Broadcast(m);
      Collect(kActive, fCollectTimeout);
   }

   return 0;
}

//______________________________________________________________________________
Int_t TProof::RemoveDynamicPath(const char *libpath, Bool_t onClient)
{
   // Remove 'libpath' from the lib path search.
   // Multiple paths can be specified at once separating them with a comma or
   // a blank.
   // Return 0 on success, -1 otherwise

   if ((!libpath || !libpath[0])) {
      if (gDebug > 0)
         Info("RemoveDynamicPath", "list is empty - nothing to do");
      return 0;
   }

   // Do it also on clients, if required
   if (onClient)
      HandleLibIncPath("lib", kFALSE, libpath);

   TMessage m(kPROOF_LIB_INC_PATH);
   m << TString("lib") <<(Bool_t)kFALSE;

   // Add paths
   if (libpath && strlen(libpath))
      m << TString(libpath);
   else
      m << TString("-");

   // Forward the request
   Broadcast(m);
   Collect(kActive, fCollectTimeout);

   return 0;
}

//______________________________________________________________________________
Int_t TProof::RemoveIncludePath(const char *incpath, Bool_t onClient)
{
   // Remove 'incpath' from the inc path search.
   // Multiple paths can be specified at once separating them with a comma or
   // a blank.
   // Return 0 on success, -1 otherwise

   if ((!incpath || !incpath[0])) {
      if (gDebug > 0)
         Info("RemoveIncludePath", "list is empty - nothing to do");
      return 0;
   }

   // Do it also on clients, if required
   if (onClient)
      HandleLibIncPath("in", kFALSE, incpath);

   TMessage m(kPROOF_LIB_INC_PATH);
   m << TString("inc") << (Bool_t)kFALSE;

   // Add paths
   if (incpath && strlen(incpath))
      m << TString(incpath);
   else
      m << TString("-");

   // Forward the request
   Broadcast(m);
   Collect(kActive, fCollectTimeout);

   return 0;
}

//______________________________________________________________________________
void TProof::HandleLibIncPath(const char *what, Bool_t add, const char *dirs)
{
   // Handle lib, inc search paths modification request

   TString type(what);
   TString path(dirs);

   // Check type of action
   if ((type != "lib") && (type != "inc")) {
      Error("HandleLibIncPath","unknown action type: %s - protocol error?", type.Data());
      return;
   }

   // Separators can be either commas or blanks
   path.ReplaceAll(","," ");

   // Decompose lists
   TObjArray *op = 0;
   if (path.Length() > 0 && path != "-") {
      if (!(op = path.Tokenize(" "))) {
         Warning("HandleLibIncPath","decomposing path %s", path.Data());
         return;
      }
   }

   if (add) {

      if (type == "lib") {

         // Add libs
         TIter nxl(op, kIterBackward);
         TObjString *lib = 0;
         while ((lib = (TObjString *) nxl())) {
            // Expand path
            TString xlib = lib->GetName();
            gSystem->ExpandPathName(xlib);
            // Add to the dynamic lib search path if it exists and can be read
            if (!gSystem->AccessPathName(xlib, kReadPermission)) {
               TString newlibpath = gSystem->GetDynamicPath();
               // In the first position after the working dir
               Int_t pos = 0;
               if (newlibpath.BeginsWith(".:"))
                  pos = 2;
               if (newlibpath.Index(xlib) == kNPOS) {
                  newlibpath.Insert(pos,TString::Format("%s:", xlib.Data()));
                  gSystem->SetDynamicPath(newlibpath);
               }
            } else {
               if (gDebug > 0)
                  Info("HandleLibIncPath",
                       "libpath %s does not exist or cannot be read - not added", xlib.Data());
            }
         }

      } else {

         // Add incs
         TIter nxi(op);
         TObjString *inc = 0;
         while ((inc = (TObjString *) nxi())) {
            // Expand path
            TString xinc = inc->GetName();
            gSystem->ExpandPathName(xinc);
            // Add to the dynamic lib search path if it exists and can be read
            if (!gSystem->AccessPathName(xinc, kReadPermission)) {
               TString curincpath = gSystem->GetIncludePath();
               if (curincpath.Index(xinc) == kNPOS)
                  gSystem->AddIncludePath(TString::Format("-I%s", xinc.Data()));
            } else
               if (gDebug > 0)
                   Info("HandleLibIncPath",
                        "incpath %s does not exist or cannot be read - not added", xinc.Data());
         }
      }


   } else {

      if (type == "lib") {

         // Remove libs
         TIter nxl(op);
         TObjString *lib = 0;
         while ((lib = (TObjString *) nxl())) {
            // Expand path
            TString xlib = lib->GetName();
            gSystem->ExpandPathName(xlib);
            // Remove from the dynamic lib search path
            TString newlibpath = gSystem->GetDynamicPath();
            newlibpath.ReplaceAll(TString::Format("%s:", xlib.Data()),"");
            gSystem->SetDynamicPath(newlibpath);
         }

      } else {

         // Remove incs
         TIter nxi(op);
         TObjString *inc = 0;
         while ((inc = (TObjString *) nxi())) {
            TString newincpath = gSystem->GetIncludePath();
            newincpath.ReplaceAll(TString::Format("-I%s", inc->GetName()),"");
            // Remove the interpreter path (added anyhow internally)
            newincpath.ReplaceAll(gInterpreter->GetIncludePath(),"");
            gSystem->SetIncludePath(newincpath);
         }
      }
   }
}

//______________________________________________________________________________
TList *TProof::GetListOfPackages()
{
   // Get from the master the list of names of the packages available.

   if (!IsValid())
      return (TList *)0;

   TMessage mess(kPROOF_CACHE);
   mess << Int_t(kListPackages);
   Broadcast(mess);
   Collect(kActive, fCollectTimeout);

   return fAvailablePackages;
}

//______________________________________________________________________________
TList *TProof::GetListOfEnabledPackages()
{
   // Get from the master the list of names of the packages enabled.

   if (!IsValid())
      return (TList *)0;

   TMessage mess(kPROOF_CACHE);
   mess << Int_t(kListEnabledPackages);
   Broadcast(mess);
   Collect(kActive, fCollectTimeout);

   return fEnabledPackages;
}

//______________________________________________________________________________
void TProof::PrintProgress(Long64_t total, Long64_t processed,
                           Float_t procTime, Long64_t bytesread)
{
   // Print a progress bar on stderr. Used in batch mode.

   if (fPrintProgress) {
      Bool_t redirlog = fRedirLog;
      fRedirLog = kFALSE;
      // Call the external function
      (*fPrintProgress)(total, processed, procTime, bytesread);
      fRedirLog = redirlog;
      return;
   }

   fprintf(stderr, "[TProof::Progress] Total %lld events\t|", total);

   for (int l = 0; l < 20; l++) {
      if (total > 0) {
         if (l < 20*processed/total)
            fprintf(stderr, "=");
         else if (l == 20*processed/total)
            fprintf(stderr, ">");
         else if (l > 20*processed/total)
            fprintf(stderr, ".");
      } else
         fprintf(stderr, "=");
   }
   Float_t evtrti = (procTime > 0. && processed > 0) ? processed / procTime : -1.;
   Float_t mbsrti = (procTime > 0. && bytesread > 0) ? bytesread / procTime : -1.;
   TString sunit("B/s");
   if (evtrti > 0.) {
      Float_t remainingTime = (total >= processed) ? (total - processed) / evtrti : -1;
      if (mbsrti > 0.) {
         const Float_t toK = 1024., toM = 1048576., toG = 1073741824.;
         if (mbsrti >= toG) {
            mbsrti /= toG;
            sunit = "GB/s";
         } else if (mbsrti >= toM) {
            mbsrti /= toM;
            sunit = "MB/s";
         } else if (mbsrti >= toK) {
            mbsrti /= toK;
            sunit = "kB/s";
         }
         fprintf(stderr, "| %.02f %% [%.1f evts/s, %.1f %s, time left: %.1f s]\r",
                (total ? ((100.0*processed)/total) : 100.0), evtrti, mbsrti, sunit.Data(), remainingTime);
      } else {
         fprintf(stderr, "| %.02f %% [%.1f evts/s, time left: %.1f s]\r",
                (total ? ((100.0*processed)/total) : 100.0), evtrti, remainingTime);
      }
   } else {
      fprintf(stderr, "| %.02f %%\r",
              (total ? ((100.0*processed)/total) : 100.0));
   }
   if (processed >= total) {
      fprintf(stderr, "\n Query processing time: %.1f s\n", procTime);
   }
}

//______________________________________________________________________________
void TProof::Progress(Long64_t total, Long64_t processed)
{
   // Get query progress information. Connect a slot to this signal
   // to track progress.

   if (fPrintProgress) {
      // Call the external function
      return (*fPrintProgress)(total, processed, -1., -1);
   }

   PDB(kGlobal,1)
      Info("Progress","%2f (%lld/%lld)", 100.*processed/total, processed, total);

   if (gROOT->IsBatch()) {
      // Simple progress bar
      if (total > 0)
         PrintProgress(total, processed);
   } else {
      EmitVA("Progress(Long64_t,Long64_t)", 2, total, processed);
   }
}

//______________________________________________________________________________
void TProof::Progress(Long64_t total, Long64_t processed, Long64_t bytesread,
                      Float_t initTime, Float_t procTime,
                      Float_t evtrti, Float_t mbrti)
{
   // Get query progress information. Connect a slot to this signal
   // to track progress.

   PDB(kGlobal,1)
      Info("Progress","%lld %lld %lld %f %f %f %f", total, processed, bytesread,
                                initTime, procTime, evtrti, mbrti);

   if (gROOT->IsBatch()) {
      // Simple progress bar
      if (total > 0)
         PrintProgress(total, processed, procTime, bytesread);
   } else {
      EmitVA("Progress(Long64_t,Long64_t,Long64_t,Float_t,Float_t,Float_t,Float_t)",
             7, total, processed, bytesread, initTime, procTime, evtrti, mbrti);
   }
}

//______________________________________________________________________________
void TProof::Progress(Long64_t total, Long64_t processed, Long64_t bytesread,
                      Float_t initTime, Float_t procTime,
                      Float_t evtrti, Float_t mbrti, Int_t actw, Int_t tses, Float_t eses)
{
   // Get query progress information. Connect a slot to this signal
   // to track progress.

   PDB(kGlobal,1)
      Info("Progress","%lld %lld %lld %f %f %f %f %d %f", total, processed, bytesread,
                                initTime, procTime, evtrti, mbrti, actw, eses);

   if (gROOT->IsBatch()) {
      // Simple progress bar
      if (total > 0)
         PrintProgress(total, processed, procTime, bytesread);
   } else {
      EmitVA("Progress(Long64_t,Long64_t,Long64_t,Float_t,Float_t,Float_t,Float_t,Int_t,Int_t,Float_t)",
             10, total, processed, bytesread, initTime, procTime, evtrti, mbrti, actw, tses, eses);
   }
}

//______________________________________________________________________________
void TProof::Feedback(TList *objs)
{
   // Get list of feedback objects. Connect a slot to this signal
   // to monitor the feedback object.

   PDB(kGlobal,1)
      Info("Feedback","%d objects", objs->GetSize());
   PDB(kFeedback,1) {
      Info("Feedback","%d objects", objs->GetSize());
      objs->ls();
   }

   Emit("Feedback(TList *objs)", (Long_t) objs);
}

//______________________________________________________________________________
void TProof::CloseProgressDialog()
{
   // Close progress dialog.

   PDB(kGlobal,1)
      Info("CloseProgressDialog",
           "called: have progress dialog: %d", fProgressDialogStarted);

   // Nothing to do if not there
   if (!fProgressDialogStarted)
      return;

   Emit("CloseProgressDialog()");
}

//______________________________________________________________________________
void TProof::ResetProgressDialog(const char *sel, Int_t sz, Long64_t fst,
                                 Long64_t ent)
{
   // Reset progress dialog.

   PDB(kGlobal,1)
      Info("ResetProgressDialog","(%s,%d,%lld,%lld)", sel, sz, fst, ent);

   EmitVA("ResetProgressDialog(const char*,Int_t,Long64_t,Long64_t)",
          4, sel, sz, fst, ent);
}

//______________________________________________________________________________
void TProof::StartupMessage(const char *msg, Bool_t st, Int_t done, Int_t total)
{
   // Send startup message.

   PDB(kGlobal,1)
      Info("StartupMessage","(%s,%d,%d,%d)", msg, st, done, total);

   EmitVA("StartupMessage(const char*,Bool_t,Int_t,Int_t)",
          4, msg, st, done, total);
}

//______________________________________________________________________________
void TProof::DataSetStatus(const char *msg, Bool_t st, Int_t done, Int_t total)
{
   // Send dataset preparation status.

   PDB(kGlobal,1)
      Info("DataSetStatus","(%s,%d,%d,%d)", msg, st, done, total);

   EmitVA("DataSetStatus(const char*,Bool_t,Int_t,Int_t)",
          4, msg, st, done, total);
}

//______________________________________________________________________________
void TProof::SendDataSetStatus(const char *action, UInt_t done,
                               UInt_t tot, Bool_t st)
{
   // Send or notify data set status

   if (IsLite()) {
      if (tot) {
         TString type = "files";
         Int_t frac = (Int_t) (done*100.)/tot;
         char msg[512] = {0};
         if (frac >= 100) {
            snprintf(msg, 512, "%s: OK (%d %s)                 \n",
                     action,tot, type.Data());
         } else {
            snprintf(msg, 512, "%s: %d out of %d (%d %%)\r",
                     action, done, tot, frac);
         }
         if (fSync)
            fprintf(stderr,"%s", msg);
         else
            NotifyLogMsg(msg, 0);
      }
      return;
   }

   if (TestBit(TProof::kIsMaster)) {
      TMessage mess(kPROOF_DATASET_STATUS);
      mess << TString(action) << tot << done << st;
      gProofServ->GetSocket()->Send(mess);
   }
}

//______________________________________________________________________________
void TProof::QueryResultReady(const char *ref)
{
   // Notify availability of a query result.

   PDB(kGlobal,1)
      Info("QueryResultReady","ref: %s", ref);

   Emit("QueryResultReady(const char*)",ref);
}

//______________________________________________________________________________
void TProof::ValidateDSet(TDSet *dset)
{
   // Validate a TDSet.

   if (dset->ElementsValid()) return;

   TList nodes;
   nodes.SetOwner();

   TList slholder;
   slholder.SetOwner();
   TList elemholder;
   elemholder.SetOwner();

   // build nodelist with slaves and elements
   TIter nextSlave(GetListOfActiveSlaves());
   while (TSlave *sl = dynamic_cast<TSlave*>(nextSlave())) {
      TList *sllist = 0;
      TPair *p = dynamic_cast<TPair*>(nodes.FindObject(sl->GetName()));
      if (!p) {
         sllist = new TList;
         sllist->SetName(sl->GetName());
         slholder.Add(sllist);
         TList *elemlist = new TList;
         elemlist->SetName(TString(sl->GetName())+"_elem");
         elemholder.Add(elemlist);
         nodes.Add(new TPair(sllist, elemlist));
      } else {
         sllist = dynamic_cast<TList*>(p->Key());
      }
      if (sllist) sllist->Add(sl);
   }

   // add local elements to nodes
   TList nonLocal; // list of nonlocal elements
   // make two iterations - first add local elements - then distribute nonlocals
   for (Int_t i = 0; i < 2; i++) {
      Bool_t local = i>0?kFALSE:kTRUE;
      TIter nextElem(local ? dset->GetListOfElements() : &nonLocal);
      while (TDSetElement *elem = dynamic_cast<TDSetElement*>(nextElem())) {
         if (elem->GetValid()) continue;
         TPair *p = dynamic_cast<TPair*>(local?nodes.FindObject(TUrl(elem->GetFileName()).GetHost()):nodes.At(0));
         if (p) {
            TList *eli = dynamic_cast<TList*>(p->Value());
            TList *sli = dynamic_cast<TList*>(p->Key());
            if (eli && sli) {
               eli->Add(elem);

               // order list by elements/slave
               TPair *p2 = p;
               Bool_t stop = kFALSE;
               while (!stop) {
                  TPair *p3 = dynamic_cast<TPair*>(nodes.After(p2->Key()));
                  if (p3) {
                     TList *p3v = dynamic_cast<TList*>(p3->Value());
                     TList *p3k = dynamic_cast<TList*>(p3->Key());
                     if (p3v && p3k) {
                        Int_t nelem = p3v->GetSize();
                        Int_t nsl = p3k->GetSize();
                        if (nelem*sli->GetSize() < eli->GetSize()*nsl) p2 = p3;
                        else stop = kTRUE;
                     }
                  } else {
                     stop = kTRUE;
                  }
               }

               if (p2!=p) {
                  nodes.Remove(p->Key());
                  nodes.AddAfter(p2->Key(), p);
               }
            } else {
               Warning("ValidateDSet", "invalid values from TPair! Protocol error?");
               continue;
            }

         } else {
            if (local) {
               nonLocal.Add(elem);
            } else {
               Warning("ValidateDSet", "no node to allocate TDSetElement to - ignoring");
            }
         }
      }
   }

   // send to slaves
   TList usedslaves;
   TIter nextNode(&nodes);
   SetDSet(dset); // set dset to be validated in Collect()
   while (TPair *node = dynamic_cast<TPair*>(nextNode())) {
      TList *slaves = dynamic_cast<TList*>(node->Key());
      TList *setelements = dynamic_cast<TList*>(node->Value());
      if (!slaves || !setelements) continue;
      // distribute elements over the slaves
      Int_t nslaves = slaves->GetSize();
      Int_t nelements = setelements->GetSize();
      for (Int_t i=0; i<nslaves; i++) {

         TDSet copyset(dset->GetType(), dset->GetObjName(),
                       dset->GetDirectory());
         for (Int_t j = (i*nelements)/nslaves;
                    j < ((i+1)*nelements)/nslaves;
                    j++) {
            TDSetElement *elem =
               dynamic_cast<TDSetElement*>(setelements->At(j));
            if (elem) {
               copyset.Add(elem->GetFileName(), elem->GetObjName(),
                           elem->GetDirectory(), elem->GetFirst(),
                           elem->GetNum(), elem->GetMsd());
            }
         }

         if (copyset.GetListOfElements()->GetSize()>0) {
            TMessage mesg(kPROOF_VALIDATE_DSET);
            mesg << &copyset;

            TSlave *sl = dynamic_cast<TSlave*>(slaves->At(i));
            if (sl) {
               PDB(kGlobal,1) Info("ValidateDSet",
                                 "Sending TDSet with %d elements to slave %s"
                                 " to be validated",
                                 copyset.GetListOfElements()->GetSize(),
                                 sl->GetOrdinal());
               sl->GetSocket()->Send(mesg);
               usedslaves.Add(sl);
            }
         }
      }
   }

   PDB(kGlobal,1)
      Info("ValidateDSet","Calling Collect");
   Collect(&usedslaves);
   SetDSet(0);
}

//______________________________________________________________________________
void TProof::AddInputData(TObject *obj, Bool_t push)
{
   // Add data objects that might be needed during the processing of
   // the selector (see Process()). This object can be very large, so they
   // are distributed in an optimized way using a dedicated file.
   // If push is TRUE the input data are sent over even if no apparent change
   // occured to the list.