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/data/refman/pasoursint/CMSSW_6_1_2_SLHC4_patch1/src/RecoLuminosity/TCPReceiver/src/TCPReceiver.cc

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00001 
00002 /*
00003   Author: Adam Hunt
00004   email:  ahunt@princeton.edu
00005   Date:   2007-08-24
00006 */
00007 
00008 #include "RecoLuminosity/TCPReceiver/interface/TCPReceiver.h"
00009 #include "RecoLuminosity/TCPReceiver/interface/TimeStamp.h"
00010 #include "RecoLuminosity/TCPReceiver/interface/LumiStructures.hh"
00011 
00012 #include <iostream>
00013 
00014 #include <unistd.h>
00015 #include <sys/time.h>
00016 
00017 // srand rand
00018 #include <cstdlib>
00019 
00020 // perror
00021 #include <cstdio>
00022 
00023 // tcp
00024 #include <sys/types.h>
00025 #include <sys/socket.h>
00026 #include <arpa/inet.h>
00027 #include <netinet/in.h>
00028 #include <netdb.h>
00029 
00030 #include <cstring>
00031 
00032 namespace HCAL_HLX{
00033 
00034   TCPReceiver::TCPReceiver(){
00035 #ifdef DEBUG
00036     std::cout << "Begin " << __PRETTY_FUNCTION__ << std::endl;
00037 #endif
00038 
00039     acquireMode = 0;
00040     servPort = 0;
00041     servIP = "127.0.0.1";
00042     Connected = false;
00043 
00044 #ifdef DEBUG
00045     std::cout << "End " << __PRETTY_FUNCTION__ << std::endl;
00046 #endif
00047   }
00048  
00049   TCPReceiver::TCPReceiver(unsigned short int port, std::string IP, unsigned char mode = 0){
00050 #ifdef DEBUG
00051     std::cout << "Begin " << __PRETTY_FUNCTION__ << std::endl;
00052 #endif
00053     acquireMode = mode;
00054     servPort = port;
00055     servIP = IP;
00056     Connected = false;
00057 
00058 #ifdef DEBUG
00059     std::cout << "Begin " << __PRETTY_FUNCTION__ << std::endl;
00060 #endif
00061   }
00062 
00063   TCPReceiver::~TCPReceiver(){
00064     Disconnect();
00065   }
00066 
00067 void SetupFDSets(fd_set& ReadFDs, fd_set& WriteFDs,
00068                  fd_set& ExceptFDs, int ListeningSocket = -1,
00069                  int connectSocket = -1) { //std::vector & gConnections) {
00070     FD_ZERO(&ReadFDs);
00071     FD_ZERO(&WriteFDs);
00072     FD_ZERO(&ExceptFDs);
00073 
00074     // Add the listener socket to the read and except FD sets, if there
00075     // is one.
00076     if (ListeningSocket != -1) {
00077         FD_SET(ListeningSocket, &ReadFDs);
00078         FD_SET(ListeningSocket, &ExceptFDs);
00079     }
00080 
00081     if (connectSocket != -1) {
00082       FD_SET(connectSocket, &ReadFDs);
00083       FD_SET(connectSocket, &ExceptFDs);
00084     }
00085 }
00086 
00087 
00088   int TCPReceiver::ReceiveLumiSection(HCAL_HLX::LUMI_SECTION &localSection){
00089 #ifdef DEBUG
00090     std::cout << "Begin " << __PRETTY_FUNCTION__ << std::endl;
00091 #endif
00092 
00093     int errorCode = 0;
00094  
00095     if(acquireMode == 0){  // real data
00096       if(Connected == false){
00097         errorCode = 701;  // not connected
00098       } else {
00099         unsigned int bytesRcvd, bytesToReceive, totalBytesRcvd;
00100         const unsigned int Buffer_Size = 8192;
00101         char *Buffer;
00102         char *BigBuffer;
00103 
00104         // From John's code
00105 
00106         fd_set fdsRead, fdsWrite, fdsExcept;
00107 
00108         //      int outputcode;
00109         //int z = 0, localCount = 0;
00110         time_t tempTime, curTime;
00111         //int ret;
00112 
00113         time(&curTime);
00114       
00115         bytesToReceive = sizeof(localSection);
00116         Buffer = new char[Buffer_Size];
00117         BigBuffer = new char[bytesToReceive];
00118         totalBytesRcvd = 0;
00119         
00120         memset(reinterpret_cast<char *>(&localSection), 0, Buffer_Size);
00121         memset(Buffer, 0, Buffer_Size);
00122         memset(BigBuffer, 0, bytesToReceive);
00123         
00124         usleep(10000);
00125         
00126         while((totalBytesRcvd < bytesToReceive) && (errorCode == 0)){
00127           
00128           SetupFDSets(fdsRead, fdsWrite, fdsExcept, -1, tcpSocket);
00129           
00130           if(select(tcpSocket+1, &fdsRead, 0, &fdsExcept, 0)> 0){
00131             
00132             if (FD_ISSET(tcpSocket, &fdsRead)) {
00133               
00134               if((bytesRcvd = recv(tcpSocket, Buffer, Buffer_Size, 0))<=0){
00135                 perror("Recv Error"); 
00136                 errorCode = 501;
00137               }else{
00138                 if((totalBytesRcvd + bytesRcvd)<= bytesToReceive){
00139                   memcpy(&BigBuffer[totalBytesRcvd], Buffer, bytesRcvd);
00140                 }else{
00141                   std::cout << "***** MEM OVER FLOW: Did someone forget to update LumiStructures.hh? *****" << std::endl;
00142                   errorCode = 502;
00143                 }
00144                 totalBytesRcvd += bytesRcvd;
00145                 time(&tempTime);
00146               }
00147             }
00148           }
00149         }
00150         
00151         if(errorCode == 0){
00152           memcpy(reinterpret_cast<char *>(&localSection), BigBuffer, sizeof(localSection));
00153           errorCode = 1; // success
00154         }  
00155         delete [] Buffer;
00156         delete [] BigBuffer;
00157       }
00158     } else if(acquireMode == 1){ // fill with fake data. Should be unique.
00159       GenerateFakeData(localSection);
00160       errorCode = 1;
00161     } else if(acquireMode == 2){ // fill with random fake data.
00162       GenerateRandomData(localSection);
00163       errorCode = 1;
00164     } else {
00165       errorCode = 201;
00166     }
00167     
00168 #ifdef DEBUG
00169     std::cout << "End " << __PRETTY_FUNCTION__ << " " << errorCode << std::endl;
00170 #endif
00171     
00172     return errorCode;
00173   }
00174   
00175   bool TCPReceiver::IsConnected(){
00176 #ifdef DEBUG
00177     std::cout << "Begin and End  " << __PRETTY_FUNCTION__ << " " << Connected << std::endl;
00178 #endif
00179     return Connected;
00180   }
00181   
00182   int TCPReceiver::SetPort(unsigned short int port){
00183 #ifdef DEBUG
00184     std::cout << "Begin " << __PRETTY_FUNCTION__ << std::endl;
00185 #endif
00186     
00187     int errorCode;
00188     
00189     if(port < 1024){
00190       errorCode = 101;
00191     }else{
00192       servPort = port;
00193       errorCode = 1;
00194     }
00195     
00196 #ifdef DEBUG
00197     std::cout << "End " << __PRETTY_FUNCTION__ << " " << errorCode << std::endl;
00198 #endif
00199     return errorCode;
00200   }
00201   
00202   int TCPReceiver::SetMode(unsigned char mode){
00203 #ifdef DEBUG
00204     std::cout << "Begin " << __PRETTY_FUNCTION__ << std::endl;
00205 #endif
00206     
00207     int errorCode;
00208     
00209     if(mode > 2){
00210       errorCode = 201;
00211     } else {
00212       acquireMode = mode;
00213       errorCode = 1;
00214     }
00215     
00216 #ifdef DEBUG
00217     std::cout << "End " << __PRETTY_FUNCTION__ << " " << errorCode << std::endl;
00218 #endif
00219     return errorCode;
00220   }
00221   
00222   void TCPReceiver::SetIP(std::string IP){
00223 #ifdef DEBUG
00224     std::cout << "Begin " << __PRETTY_FUNCTION__ << std::endl;
00225 #endif
00226     servIP = IP;
00227 #ifdef DEBUG
00228     std::cout << "End " << __PRETTY_FUNCTION__ << std::endl;
00229 #endif
00230   }
00231   
00232   int TCPReceiver::Connect(){
00233 #ifdef DEBUG
00234     std::cout << "Begin " << __PRETTY_FUNCTION__ << std::endl;
00235 #endif  
00236     
00237     int errorCode;
00238     
00239     if(acquireMode == 0){
00240       struct hostent * hostInfo = gethostbyname(servIP.c_str());
00241       
00242       if(servPort < 1024){
00243         errorCode = 101;  // Protected ports
00244       } else {
00245 #ifdef DEBUG    
00246         std::cout << "Requesting connection" << std::endl;
00247 #endif
00248         if((tcpSocket = socket(AF_INET, SOCK_STREAM, 0))<0){
00249           perror("Socket Error");
00250           errorCode = 301; // Socket failed
00251         }else{
00252           memset(&servAddr, 0, sizeof(servAddr)); 
00253           servAddr.sin_family = hostInfo->h_addrtype;
00254           memcpy((char *) &servAddr.sin_addr.s_addr,
00255                  hostInfo->h_addr_list[0],
00256                  hostInfo->h_length);     
00257           //  servAddr.sin_addr.s_addr = inet_addr(servIP.c_str());
00258           servAddr.sin_port = htons(servPort);
00259 #ifdef DEBUG
00260           std::cout << "Connecting" << std::endl;
00261 #endif
00262           if(connect(tcpSocket, (struct sockaddr *) &servAddr, sizeof(servAddr))<0){
00263             perror("Connect Error");
00264             errorCode = 302; // connect failed
00265             close(tcpSocket);
00266           } else{
00267             Connected = true;
00268             errorCode = 1;  // Successful connection
00269           }
00270         }
00271       }
00272     } else if(acquireMode == 1) {
00273       Connected = true; 
00274       errorCode = 1;       // do nothing for fake data
00275     } else  if(acquireMode == 2) {
00276       Connected = true; 
00277       errorCode = 1;       // do nothing for random data
00278     } else {
00279       errorCode = 201;     // Invalid acquire mode
00280     }
00281     
00282 #ifdef DEBUG
00283     std::cout << "End " << __PRETTY_FUNCTION__ << " " << errorCode << std::endl;
00284 #endif
00285     return errorCode;
00286   }
00287   
00288   int TCPReceiver::Disconnect(){
00289 #ifdef DEBUG
00290     std::cout << "Begin " << __PRETTY_FUNCTION__ << std::endl;
00291 #endif
00292 
00293     int errorCode = 0;
00294 
00295     if(Connected){
00296       if( acquireMode == 0 ){
00297         if(shutdown(tcpSocket,SHUT_RDWR)<0){
00298           perror("Shutdown Error");
00299           errorCode = 601; // Disconnect Failed
00300         } else {
00301           
00302           errorCode = 1;  // Successful Disconnect
00303         }
00304       }
00305       Connected = false;
00306     } else {
00307       errorCode = 401;  // Not Connected
00308     }
00309     
00310 #ifdef DEBUG
00311     std::cout << "End " << __PRETTY_FUNCTION__ << " " << errorCode << std::endl;
00312 #endif
00313     return errorCode;
00314   }
00315 
00316   void TCPReceiver::GenerateFakeData(HCAL_HLX::LUMI_SECTION & localSection){
00317 #ifdef DEBUG
00318     std::cout << "Begin " << __PRETTY_FUNCTION__ << std::endl;
00319 #endif
00320     int i, j, k;
00321 
00322     localSection.hdr.runNumber     = 1;
00323     localSection.hdr.startOrbit    = 2;
00324     localSection.hdr.numOrbits     = 3;
00325     localSection.hdr.numBunches    = 4;
00326     localSection.hdr.numHLXs       = 5;
00327     localSection.hdr.bCMSLive      = true;
00328     localSection.hdr.sectionNumber = 120;
00329     
00330     timeval tvTemp;
00331     gettimeofday(&tvTemp, NULL);
00332     localSection.hdr.timestamp = tvTemp.tv_sec;
00333     localSection.hdr.timestamp_micros = tvTemp.tv_usec;
00334 
00335     localSection.lumiSummary.DeadtimeNormalization = 0.7;
00336     localSection.lumiSummary.LHCNormalization      = 0.75;
00337     localSection.lumiSummary.OccNormalization[0]   = 0.8;
00338     localSection.lumiSummary.OccNormalization[1]   = 0.85;
00339     localSection.lumiSummary.ETNormalization       = 0.8;
00340     localSection.lumiSummary.InstantLumi           = 0.9;
00341     localSection.lumiSummary.InstantLumiErr        = 0.10;
00342     localSection.lumiSummary.InstantLumiQlty       = 11;
00343     localSection.lumiSummary.InstantETLumi         = 0.12;
00344     localSection.lumiSummary.InstantETLumiErr      = 0.13;
00345     localSection.lumiSummary.InstantETLumiQlty     = 14;
00346     localSection.lumiSummary.InstantOccLumi[0]     = 0.15;
00347     localSection.lumiSummary.InstantOccLumiErr[0]  = 0.16;
00348     localSection.lumiSummary.InstantOccLumiQlty[0] = 17;
00349     localSection.lumiSummary.lumiNoise[0]          = 0.18;
00350     localSection.lumiSummary.InstantOccLumi[1]     = 0.19;
00351     localSection.lumiSummary.InstantOccLumiErr[1]  = 0.20;
00352     localSection.lumiSummary.InstantOccLumiQlty[1] = 21;
00353     localSection.lumiSummary.lumiNoise[1]          = 0.22;
00354     
00355     for(j=0; j < 3564; j++){
00356       localSection.lumiDetail.ETBXNormalization[j]     = 0.25*j/35640.0;
00357       localSection.lumiDetail.OccBXNormalization[0][j] = 0.5*j/35640.0;
00358       localSection.lumiDetail.OccBXNormalization[1][j] = 0.75*j/35640.0;      
00359       localSection.lumiDetail.LHCLumi[j]               = 1*j/35640.0; 
00360       localSection.lumiDetail.ETLumi[j]                = 2*j/35640.0;
00361       localSection.lumiDetail.ETLumiErr[j]             = 3*j/35640.0;
00362       localSection.lumiDetail.ETLumiQlty[j]            = 4*j;
00363       localSection.lumiDetail.OccLumi[0][j]            = 5*j/35640.0;
00364       localSection.lumiDetail.OccLumiErr[0][j]         = 6*j/35640.0;
00365       localSection.lumiDetail.OccLumiQlty[0][j]        = 7*j;
00366       localSection.lumiDetail.OccLumi[1][j]            = 8*j/35640.0;
00367       localSection.lumiDetail.OccLumiErr[1][j]         = 9*j/35640.0;
00368       localSection.lumiDetail.OccLumiQlty[1][j]        = 10*j;
00369     }
00370     
00371     for(i=0; i<36; i ++){
00372       localSection.etSum[i].hdr.numNibbles     = 7;
00373       localSection.occupancy[i].hdr.numNibbles = 8;
00374       localSection.lhc[i].hdr.numNibbles       = 9;
00375       
00376       localSection.etSum[i].hdr.bIsComplete     = true;
00377       localSection.occupancy[i].hdr.bIsComplete = true;
00378       localSection.lhc[i].hdr.bIsComplete       = true;
00379       
00380       for(j=0; j < 3564; j ++){
00381         localSection.etSum[i].data[j]          = 6*j+ 10*i;
00382         for(k=0; k < 6; k++){
00383           localSection.occupancy[i].data[k][j] = k*j + 11*i;
00384         }
00385         localSection.lhc[i].data[j]            = 7*j + 12*i;
00386       }
00387     }
00388 
00389 #ifdef DEBUG
00390     std::cout << "End " << __PRETTY_FUNCTION__ << std::endl;
00391 #endif
00392 
00393   }
00394 
00395   void TCPReceiver::GenerateRandomData(HCAL_HLX::LUMI_SECTION & localSection){
00396 #ifdef DEBUG
00397     std::cout << "Begin " << __PRETTY_FUNCTION__ << std::endl;
00398 #endif
00399     int i, j, k;
00400 
00401     srand(time(NULL));
00402     localSection.hdr.runNumber     = 55; //(rand() % 100);
00403     localSection.hdr.startOrbit    = (rand() % 100);
00404     localSection.hdr.numOrbits     = (rand() % 100);
00405     localSection.hdr.numBunches    = (rand() % 100);
00406     localSection.hdr.numHLXs       = (rand() % 100);
00407     localSection.hdr.bCMSLive      = true;
00408     localSection.hdr.sectionNumber = (rand() %100);
00409     
00410     localSection.lumiSummary.DeadtimeNormalization = (float)(rand() % 100)/100;
00411     localSection.lumiSummary.LHCNormalization      = (float)(rand() % 100)/100;
00412     localSection.lumiSummary.OccNormalization[0]   = (float)(rand() % 100)/100;
00413     localSection.lumiSummary.OccNormalization[1]   = (float)(rand() % 100)/100;
00414     localSection.lumiSummary.ETNormalization       = (float)(rand() % 100)/100;
00415     localSection.lumiSummary.InstantLumi           = (float)(rand() % 100)/100;
00416     localSection.lumiSummary.InstantLumiErr        = (float)(rand() % 100)/100;
00417     localSection.lumiSummary.InstantLumiQlty       = (rand() % 100);
00418     localSection.lumiSummary.InstantETLumi         = (float)(rand() % 100)/100;
00419     localSection.lumiSummary.InstantETLumiErr      = (float)(rand() % 100)/100;
00420     localSection.lumiSummary.InstantETLumiQlty     = (rand() % 100);
00421     localSection.lumiSummary.InstantOccLumi[0]     = (float)(rand() % 100)/100;
00422     localSection.lumiSummary.InstantOccLumiErr[0]  = (float)(rand() % 100)/100;
00423     localSection.lumiSummary.InstantOccLumiQlty[0] = (rand() % 100);
00424     localSection.lumiSummary.lumiNoise[0]          = (float)(rand() % 100)/100;
00425     localSection.lumiSummary.InstantOccLumi[1]     = (float)(rand() % 100)/100;
00426     localSection.lumiSummary.InstantOccLumiErr[1]  = (float)(rand() % 100)/100;
00427     localSection.lumiSummary.InstantOccLumiQlty[1] = (rand() % 100);
00428     localSection.lumiSummary.lumiNoise[1]          = (float)(rand() % 100)/100;
00429     
00430     for(j=0; j < 3564; j++){
00431       localSection.lumiDetail.ETBXNormalization[j]     = 0.25*j/35640.0;
00432       localSection.lumiDetail.OccBXNormalization[0][j] = 0.5*j/35640.0;
00433       localSection.lumiDetail.OccBXNormalization[1][j] = 0.75*j/35640.0;      
00434       localSection.lumiDetail.LHCLumi[j]               = (float)(rand() % 100)/100.0;
00435       localSection.lumiDetail.ETLumi[j]                = (float)(rand() % 100)/100.0;
00436       localSection.lumiDetail.ETLumiErr[j]             = (float)(rand() % 100)/100.0;
00437       localSection.lumiDetail.ETLumiQlty[j]            = (rand() % 100);
00438       localSection.lumiDetail.OccLumi[0][j]            = (float)(rand() % 100)/100.0;
00439       localSection.lumiDetail.OccLumiErr[0][j]         = (float)(rand() % 100)/100.0;
00440       localSection.lumiDetail.OccLumiQlty[0][j]        = (rand() % 100);
00441       localSection.lumiDetail.OccLumi[1][j]            = (float)(rand() % 100)/100.0;
00442       localSection.lumiDetail.OccLumiErr[1][j]         = (float)(rand() % 100)/100.0;
00443       localSection.lumiDetail.OccLumiQlty[1][j]        = (rand() % 100);
00444     }
00445     
00446     for(i=0; i<36; i ++){
00447       localSection.etSum[i].hdr.numNibbles     = (rand() % 100);
00448       localSection.occupancy[i].hdr.numNibbles = 8*(rand() % 100);
00449       localSection.lhc[i].hdr.numNibbles       = 9*(rand() % 100);
00450       
00451       localSection.etSum[i].hdr.bIsComplete     = true;
00452       localSection.occupancy[i].hdr.bIsComplete = true;
00453       localSection.lhc[i].hdr.bIsComplete       = true;
00454       
00455       for(j=0; j < 3564; j ++){
00456         localSection.etSum[i].data[j]          = 6*(rand() % 3564);
00457         for(k=0; k < 6; k++){ 
00458           localSection.occupancy[i].data[k][j] = k*(rand() % 3564);
00459         }
00460         localSection.lhc[i].data[j]            = 7*(rand() % 3564);
00461       }
00462     } 
00463 
00464 #ifdef DEBUG
00465     std::cout << "End " << __PRETTY_FUNCTION__ << std::endl;
00466 #endif
00467   }
00468 
00469   bool TCPReceiver::VerifyFakeData(HCAL_HLX::LUMI_SECTION & localSection){
00470 
00471     HCAL_HLX::LUMI_SECTION L;
00472     GenerateFakeData(L);
00473     return !(memcmp(&L, &localSection, sizeof(L)));
00474   }
00475 
00476 }