int main (int argc, char* argv[]) { /******* Parsed value containers ****************/ std::string configFile; std::string sessionKey; std::string stateStr = ""; int state; std::string fromDate; std::string toDate; int retCode = 0; /********** EMF data ************/ TMS_Data::ListJobsOptions jobOp; /******** Callback functions ******************/ boost::function1<void,string> setMachineIdFct(boost::bind(&TMS_Data::ListJobsOptions::setMachineId,boost::ref(jobOp),_1)); boost::function1<void,string> setJobIdFct(boost::bind(&TMS_Data::ListJobsOptions::setJobId,boost::ref(jobOp),_1)); boost::function1<void,int> setNbCpuFct(boost::bind(&TMS_Data::ListJobsOptions::setNbCpu,boost::ref(jobOp),_1)); boost::function1<void,string> setOwnerFct(boost::bind(&TMS_Data::ListJobsOptions::setOwner,boost::ref(jobOp),_1)); boost::function1<void,TMS_Data::JobPriority> setPriorityFct(boost::bind(&TMS_Data::ListJobsOptions::setPriority,boost::ref(jobOp),_1)); boost::function1<void,string> setQueueFct(boost::bind(&TMS_Data::ListJobsOptions::setQueue,boost::ref(jobOp),_1)); boost::function1<void,string> setMultipleStatusesFct(boost::bind(&TMS_Data::ListJobsOptions::setMultipleStatus,boost::ref(jobOp),_1)); boost::function1<void,long long> setWorkIdFct(boost::bind(&TMS_Data::ListJobsOptions::setWorkId,boost::ref(jobOp),_1)); /*********** Out parameters *********************/ TMS_Data::ListJobs jobs; /**************** Describe options *************/ boost::shared_ptr<Options> opt = makeListJobOp(argv[0], setMachineIdFct, setJobIdFct, setNbCpuFct, fromDate, toDate, setOwnerFct, stateStr, setPriorityFct, setQueueFct, setMultipleStatusesFct, setWorkIdFct, sessionKey, configFile); opt->add("isListAll,l", "allows to list all information", CONFIG); // pre-process options bool isEmpty; GenericCli().processListOpt(opt, isEmpty, argc, argv); // Process command try { if (stateStr.size()!=0) { size_t pos = stateStr.find_first_not_of("0123456789"); if (pos!=std::string::npos) { if (stateStr.size() == 1) { switch(stateStr[0]) { case 'S' : state = vishnu::STATE_SUBMITTED; break; case 'Q' : state = vishnu::STATE_QUEUED; break; case 'W' : state = vishnu::STATE_WAITING; break; case 'R' : state = vishnu::STATE_RUNNING; break; case 'T' : state = vishnu::STATE_COMPLETED; break; case 'C' : state = vishnu::STATE_CANCELLED; break; case 'D' : state = vishnu::STATE_DOWNLOADED; break; case 'F' : state = vishnu::STATE_FAILED; break; default: state = vishnu::STATE_UNDEFINED; break; } } if (stateStr.size() > 1 || state < 0) { std::cerr << (boost::format("Unknown job state: %1%")%stateStr).str(); return CLI_ERROR_INVALID_PARAMETER; } } else { state = convertToInt(stateStr); } jobOp.setStatus(state); } //convert the date in long format if (opt->count("fromSubmitDate")) { jobOp.setFromSubmitDate(string_to_time_t(fromDate)); } if (opt->count("toSubmitDate")) { jobOp.setToSubmitDate(string_to_time_t(toDate)); } if (opt->count("isListAll")) { jobOp.setListAll(true); } if (vishnuInitialize(const_cast<char*>(configFile.c_str()), argc, argv)) { errorUsage(argv[0],communicationErrorMsg,EXECERROR); return CLI_ERROR_COMMUNICATION ; } // Process list job // get the sessionKey if(sessionKey.empty()){ sessionKey=getLastSessionKey(getppid()); } // vishnu call: submit if(! sessionKey.empty()){ listJobs(sessionKey, jobs, jobOp); } if (jobOp.getJobId().empty() && jobOp.getNbCpu() <= 0 && jobOp.getFromSubmitDate() <= 0 && jobOp.getToSubmitDate() <= 0 && !jobOp.isListAll()) { std::cout << jobs << "\n"; } else { displayListJobs(jobs); } } catch(VishnuException& e) {// catch all Vishnu runtime error std::string msg = e.getMsg(); if (e.getMsgComp().compare("Bus initialization failure")==0){ msg += " ["+e.getMsgComp()+", machineId may be invalid]"; } else { msg += " ["+e.getMsgComp()+"]"; } errorUsage(argv[0], msg,EXECERROR); //check the bad session key if (checkBadSessionKeyError(e)) { removeBadSessionKeyFromFile(getppid()); } retCode = e.getMsgI(); } catch(std::exception& e) {// catch all std runtime error errorUsage(argv[0],e.what()); retCode = CLI_ERROR_RUNTIME; } return retCode; }
int main (int argc, char* argv[]){ int ret; // Return value /******* Parsed value containers ****************/ string dietConfig; string sessionKey; string machineId; string statusStr = ""; int status; std::string fromDate; std::string toDate; /********** EMF data ************/ TMS_Data::ListJobsOptions jobOp; /******** Callback functions ******************/ boost::function1<void,string> fjid(boost::bind(&TMS_Data::ListJobsOptions::setJobId,boost::ref(jobOp),_1)); boost::function1<void,int> fnbCpu(boost::bind(&TMS_Data::ListJobsOptions::setNbCpu,boost::ref(jobOp),_1)); boost::function1<void,string> fown(boost::bind(&TMS_Data::ListJobsOptions::setOwner,boost::ref(jobOp),_1)); boost::function1<void,JobPriority> fpriority(boost::bind(&TMS_Data::ListJobsOptions::setPriority,boost::ref(jobOp),_1)); boost::function1<void,string> fqueue(boost::bind(&TMS_Data::ListJobsOptions::setQueue,boost::ref(jobOp),_1)); boost::function1<void,string> fmutlStatus(boost::bind(&TMS_Data::ListJobsOptions::setMultipleStatus,boost::ref(jobOp),_1)); boost::function1<void,long long> fworkId(boost::bind(&TMS_Data::ListJobsOptions::setWorkId,boost::ref(jobOp),_1)); /*********** Out parameters *********************/ TMS_Data::ListJobs job; /**************** Describe options *************/ boost::shared_ptr<Options> opt=makeListJobOp(argv[0], fjid, fnbCpu, fromDate, toDate, fown, statusStr, fpriority, fqueue, fmutlStatus, fworkId, dietConfig); opt->add("isBatchJob,b", "allows to select all jobs submitted through the underlying" " batch scheduler (jobs submitted through vishnu and out of vishnu)", CONFIG); opt->add("isListAll,l", "allows to list all information", CONFIG); opt->add("machineId,m", "represents the id of the machine", HIDDEN, machineId,1); opt->setPosition("machineId",1); CLICmd cmd = CLICmd (argc, argv, opt); // Process command try { // Parse the cli and setting the options found ret = cmd.parse(env_name_mapper()); if (ret != CLI_SUCCESS){ helpUsage(*opt,"[options] machineId"); return ret; } // PreProcess (adapt some parameters if necessary) checkVishnuConfig(*opt); if ( opt->count("help")){ helpUsage(*opt,"[options] machineId"); return 0; } if(statusStr.size()!=0) { size_t pos = statusStr.find_first_not_of("0123456789"); if(pos!=std::string::npos) { if(statusStr.size()==1) { switch(statusStr[0]) { case 'S' : status = 1; break; case 'Q' : status = 2; break; case 'W' : status = 3; break; case 'R' : status = 4; break; case 'T' : status = 5; break; case 'C' : status = 6; break; case 'D' : status = 7; break; default: status = -1; break; } } if ((statusStr.size() > 1) || (status == -1)) { std::cerr << "Unknown job status " << statusStr << std::endl; return 0; } } else { status = convertToInt(statusStr); } jobOp.setStatus(status); } //convert the date in long format if(opt->count("fromSubmitDate")){ jobOp.setFromSubmitDate(convertLocaltimeINUTCtime(string_to_time_t(fromDate))); } if(opt->count("toSubmitDate")){ jobOp.setToSubmitDate(convertLocaltimeINUTCtime(string_to_time_t(toDate))); } if(opt->count("isBatchJob")) { jobOp.setBatchJob(true); } if (opt->count("isListAll")) { jobOp.setListAll(true); } // initializing DIET if (vishnuInitialize(const_cast<char*>(dietConfig.c_str()), argc, argv)) { errorUsage(argv[0],dietErrorMsg,EXECERROR); return CLI_ERROR_DIET ; } // get the sessionKey sessionKey=getLastSessionKey(getppid()); // DIET call : submit if(false==sessionKey.empty()){ printSessionKeyMessage(); listJobs(sessionKey, machineId, job, jobOp); } if(jobOp.getOwner().size()==0 && jobOp.getJobId().size()==0 && jobOp.getNbCpu() <= 0 && jobOp.getFromSubmitDate() <= 0 && jobOp.getToSubmitDate() <= 0 && !jobOp.isListAll()) { std::cout << job << std::endl; } else { displayListJobs(job); } printSuccessMessage(); } catch(VishnuException& e){// catch all Vishnu runtime error std::string msg = e.getMsg()+" ["+e.getMsgComp()+"]"; errorUsage(argv[0], msg,EXECERROR); //check the bad session key if (checkBadSessionKeyError(e)){ removeBadSessionKeyFromFile(getppid()); } return e.getMsgI() ; } catch(std::exception& e){// catch all std runtime error errorUsage(argv[0],e.what()); return CLI_ERROR_RUNTIME; } return 0; }