int MRNetBE::mHandshake(void) { VCOMP_COUT("Starting lash-up handshake..." << endl); // MRN::PacketPtr packet; const bool recvShouldBlock = true; int tag = 0; // This will setup the protocol stream. auto status = mNet->recv(&tag, packet, &mProtoStream, recvShouldBlock); if (1 != status) { static const string f = "Stream::Recv"; GLADIUS_CERR << utils::formatCallFailed(f, GLADIUS_WHERE) << endl; return GLADIUS_ERR_MRNET; } int ping = -1; status = packet->unpack("%d", &ping); if (0 != status) { static const string f = "PacketPtr::unpack"; GLADIUS_CERR << utils::formatCallFailed(f, GLADIUS_WHERE) << endl; return GLADIUS_ERR_MRNET; } if (toolcommon::MRNetCoreTags::InitHandshake != tag) { static const string errs = "Received Invalid Tag From Tool Front-End"; GLADIUS_CERR << errs << endl; return GLADIUS_ERR; } if (ping != GladiusMRNetProtoFilterMagic) { static const string errs = "Received Invalid Data From Tool Front-End"; GLADIUS_CERR << errs << endl; return GLADIUS_ERR; } int pong = -ping; status = mProtoStream->send(tag, "%d", pong); if (-1 == status) { static const string f = "Stream::Send"; GLADIUS_CERR << utils::formatCallFailed(f, GLADIUS_WHERE) << endl; return GLADIUS_ERR_MRNET; } status = mProtoStream->flush(); if (-1 == status) { static const string f = "Stream::Flush"; GLADIUS_CERR << utils::formatCallFailed(f, GLADIUS_WHERE) << endl; return GLADIUS_ERR_MRNET; } // return GLADIUS_SUCCESS; }
/** * Receives valid plugin name and path from FE. */ int MRNetBE::mPluginInfoRecv( string &validPluginName, string &pathToValidPlugin ) { VCOMP_COUT("Receiving plugin info from front-end..." << endl); // MRN::PacketPtr packet; MRN::Stream *stream = nullptr; const bool recvShouldBlock = true; int tag = 0; auto status = mNet->recv(&tag, packet, &stream, recvShouldBlock); if (1 != status) { static const string f = "Network::Recv"; GLADIUS_CERR << utils::formatCallFailed(f, GLADIUS_WHERE) << endl; return GLADIUS_ERR_MRNET; } // Make sure that we are dealing with a tag that we are expecting... if (toolcommon::MRNetCoreTags::PluginNameInfo != tag) { static const string errs = "Received Invalid Tag From Tool Front-End"; GLADIUS_CERR << errs << endl; return GLADIUS_ERR; } char *pluginName = nullptr; char *pluginPath = nullptr; status = packet->unpack("%s %s", &pluginName, &pluginPath); if (0 != status) { static const string f = "PacketPtr::unpack"; GLADIUS_CERR << utils::formatCallFailed(f, GLADIUS_WHERE) << endl; return GLADIUS_ERR_MRNET; } // Set returns. validPluginName = string(pluginName); pathToValidPlugin = string(pluginPath); // free(pluginName); free(pluginPath); // VCOMP_COUT("Front-End Plugin Info:" << endl); VCOMP_COUT("*Name: " << validPluginName << endl); VCOMP_COUT("*Path: " << pathToValidPlugin << endl); // return GLADIUS_SUCCESS; }
bool StopTrace::handleResultPackage(MRN::PacketPtr packet, MRN::Stream* stream) { map<MRN::Stream*, StopTrace*>::iterator it = waitingForResults.find(stream); if (it == waitingForResults.end()) { return DYSECTWARN(false, "Unexpected packet on result stream!"); } StopTrace* action = it->second; char* data; int dataSize; if (packet->unpack("%ac", &data, &dataSize) != 0) { return DYSECTFATAL(false, "Unexpected global result package content!"); } action->trace->processGlobalResult(data, dataSize); waitingForResults.erase(it); TraceAPI::processedGlobalRes(action->trace); free(data); return true; }
int main( int argc, char* argv[] ) { int ret = 0; MRN::Network* net = NULL; try { int myNid = FindMyNid(); // connect to the MRNet net = MRN::Network::CreateNetworkBE( argc, argv ); assert( net != NULL ); int myRank = net->get_LocalRank(); //fprintf( stderr, "BE[%d] done creating MRNet net BE\n", myRank ); //fflush( stderr ); // receive the ALPS apid for the application to be monitored MRN::Stream* strm = NULL; MRN::PacketPtr pkt; int tag = 0; int rret = net->recv( &tag, pkt, &strm ); //fprintf( stderr, "BE[%d] received ALPS apid msg\n", myRank ); //fflush( stderr ); if( rret == -1 ) { throw XTMException( "BE[%d] failed to receive control message from FE" ); } if( tag != XTM_APID ) { std::ostringstream mstr; mstr << "BE[" << myRank << "] expected XTM_APID message, got tag=" << tag << std::ends; throw XTMException( mstr.str().c_str() ); } uint64_t apid = (uint64_t)-1; pkt->unpack( "%uld", &apid ); //fprintf( stderr, "BE[%d] received apid=%lu\n", myRank, apid ); //fflush( stderr ); #ifdef TOOL_CODE_GOES_HERE // ---- BEGIN TOOL-SPECIFIC CODE REGION ---- // 1. attach to local application process(es) // 2. indicate to tool FE that we are attached // 3. handle application process events until it finishes // ---- END TOOL-SPECIFIC CODE REGION ---- #else // fake to the FE as if we have connected to the application and // waited for it to finish tag = XTM_APPOK; int dummyVal = 1; int sret = strm->send( tag, "%d", dummyVal ); if( sret == -1 ) { fprintf( stderr, "BE[%d] send of app OK msg failed\n", myRank ); fflush( stderr ); } int fret = strm->flush(); if( fret == -1 ) { fprintf( stderr, "BE[%d] flush of app OK msg failed\n", myRank ); fflush( stderr ); } if( (sret == -1) || (fret == -1) ) { std::ostringstream mstr; mstr << "BE[" << myRank << "] failed to send app OK msg to FE" << std::ends; throw XTMException( mstr.str().c_str() ); } //fprintf( stderr, "BE[%d] sent app OK message to FE\n", myRank ); //fflush( stderr ); sleep( 5 ); #endif //fprintf( stderr, "BE[%d] sending app done message to FE\n", myRank ); //fflush( stderr ); tag = XTM_APPDONE; int appExitCode = 1; sret = strm->send( tag, "%d", appExitCode ); if( sret == -1 ) { fprintf( stderr, "BE[%d] send of app done msg failed\n", myRank ); fflush( stderr ); } fret = strm->flush(); if( fret == -1 ) { fprintf( stderr, "BE[%d] flush of app done msg failed\n", myRank ); fflush( stderr ); } if( (sret == -1) || (fret == -1) ) { std::ostringstream mstr; mstr << "BE[" << myRank << "] failed to send app exit code to FE" << std::ends; throw XTMException( mstr.str().c_str() ); } //fprintf( stderr, "BE[%d] sent app done message to FE\n", myRank ); //fflush( stderr ); // wait for termination message from FE rret = net->recv( &tag, pkt, &strm ); if( rret == -1 ) { std::ostringstream mstr; mstr << "BE[" << myRank << "] failed to receive control message from FE" << std::ends; throw XTMException( mstr.str().c_str() ); } if( tag != XTM_EXIT ) { std::ostringstream mstr; mstr << "BE[" << myRank << "] expected XTM_EXIT message, got tag=" << tag << std::ends; throw XTMException( mstr.str().c_str() ); } // clean up //fprintf( stderr, "BE[%d] exiting\n", myRank ); //fflush( stderr ); net->waitfor_ShutDown(); delete net; } catch( std::exception& e ) { fprintf( stderr, "!!BE EXCEPTION!! %s\n", e.what() ); ret = 1; } return ret; }
DysectErrorCode FE::requestBackendSetup(const char *libPath) { struct timeval start, end; gettimeofday(&start, NULL); MRN::Communicator* broadcastCommunicator = network->get_BroadcastCommunicator(); controlStream = network->new_Stream(broadcastCommunicator, MRN::TFILTER_SUM, MRN::SFILTER_WAITFORALL); if(!controlStream) { return Error; } // Check for pending acks int ret = statFE->receiveAck(true); if (ret != STAT_OK) { return Error; } // // Send library path to all backends // if (controlStream->send(PROT_LOAD_SESSION_LIB, "%s", libPath) == -1) { return Error; } if (controlStream->flush() == -1) { return Error; } // // Block and wait for all backends to acknowledge // int tag; MRN::PacketPtr packet; Err::verbose(true, "Block and wait for all backends to confirm library load..."); if(controlStream->recv(&tag, packet, true) == -1) { return Error; } int numIllBackends = 0; // // Unpack number of ill backends // if(packet->unpack("%d", &numIllBackends) == -1) { return Error; } if(numIllBackends != 0) { fprintf(stderr, "Frontend: %d backends reported error while loading session library '%s'\n", numIllBackends, libPath); return Error; } // // Broadcast request for notification upon finishing // stream binding. // Do not wait for response until all init packets have been broadcasted. // Err::verbose(true, "Broadcast request for notification upon finishing stream binding"); if(controlStream->send(DysectGlobalReadyTag, "") == -1) { return Error; } if(controlStream->flush() == -1) { return Error; } // // Broadcast init packets on all created streams // Err::verbose(true, "Broadcast init packets on all created streams"); if(Frontend::broadcastStreamInits() != OK) { return Error; } Err::verbose(true, "Waiting for backends to finish stream binding..."); if(controlStream->recv(&tag, packet, true) == -1) { return Error; } // // Unpack number of ill backends // if (packet->unpack("%d", &numIllBackends) == -1) { return Error; } if (numIllBackends != 0) { fprintf(stderr, "Frontend: %d backends reported error while bindings streams\n", numIllBackends); return Error; } // // Kick off session // Err::verbose(true, "Kick off session"); if (controlStream->send(DysectGlobalStartTag, "") == -1) { return Error; } if (controlStream->flush() == -1) { return Error; } gettimeofday(&end, NULL); // Bring both times into milliseconds long startms = ((start.tv_sec) * 1000) + ((start.tv_usec) / 1000); long endms = ((end.tv_sec) * 1000) + ((end.tv_usec) / 1000); long elapsedms = endms - startms; Err::info(true, "DysectAPI setup took %ld ms", elapsedms); return OK; }