//END APIQA int main(int argc, char **argv) { struct timeval time_interval; RsslError error; fd_set useRead; fd_set useExcept; fd_set useWrt; int selRet; char errTxt[256]; RsslBuffer errorText = {255, (char*)errTxt}; RsslRet retval = 0; RsslInProgInfo inProg = RSSL_INIT_IN_PROG_INFO; int i; RsslInitializeExOpts initOpts = RSSL_INIT_INITIALIZE_EX_OPTS; time_t currentTime; #ifdef _WIN32 int rcvBfrSize = 65535; int sendBfrSize = 65535; #endif snprintf(srvrHostname, 128, "%s", defaultSrvrHostname); snprintf(srvrPortNo, 128, "%s", defaultSrvrPortNo); snprintf(serviceName, 128, "%s", defaultServiceName); snprintf(interfaceName, 128, "%s", defaultInterface); setUsername((char *)""); setAuthenticationToken((char *)""); setAuthenticationExtended((char *)""); setApplicationId((char *)""); snprintf(proxyHostname, 128, "%s", defaultProxyHost); snprintf(proxyPort, 128, "%s", defaultProxyPort); /* Check usage and retrieve operating parameters */ if (argc == 1) /* use default operating parameters */ { snprintf(itemName, 128, "%s", defaultItemName); /* add item name in market price handler */ addMarketPriceItemName(itemName, RSSL_FALSE); mpItemReq = RSSL_TRUE; printf("\nUsing default operating parameters...\n\n"); printf("srvrHostname: %s\n", srvrHostname); printf("srvrPortNo: %s\n", srvrPortNo); printf("serviceName: %s\n", serviceName); printf("itemName: %s\n", itemName); printf("connType: %d\n", connType); } else if (argc > 1) /* all operating parameters entered by user */ { i = 1; while(i < argc) { if(strcmp("-libsslName", argv[i]) == 0) { i += 2; snprintf(libsslName, 128, "%s", argv[i-1]); initOpts.jitOpts.libsslName = libsslName; } //APIQA else if (strcmp("-reissueDir", argv[i]) == 0) { printf("Found -reissueDir "); _initialDirFilter = atoi(argv[++i]); printf("%d ", _initialDirFilter); _reissueDirFilter = atoi(argv[++i]); printf("%d\n", _reissueDirFilter); setDirectoryFilter(_initialDirFilter, _reissueDirFilter); break; } else if (strcmp("-reissueDict", argv[i]) == 0) { printf("Found -reissueDict "); _initialDictFilter = atoi(argv[++i]); printf("%d ", _initialDictFilter); _reissueDictFilter = atoi(argv[++i]); printf("%d\n", _reissueDictFilter); setDictionaryFilter(_initialDictFilter, _reissueDictFilter); break; } else if (strcmp("-xmlTrace", argv[i]) == 0) { xmlTrace = RSSL_TRUE; ++i; } else if (strcmp("-loadDictFromFile", argv[i]) == 0) { _loadDictFromFile = RSSL_TRUE; ++i; } else if (strcmp("-reissueQos", argv[i]) == 0) { _reissueQos = RSSL_TRUE; _qosRate = atoi(argv[++i]); _qosTimeliness = atoi(argv[++i]); printf("\nReissueQoS for rate = %d and timeline = %d\n", _qosRate, _qosTimeliness); setReissueQos(_qosRate, _qosTimeliness); break; } else if (strcmp("-reissueQosAndWorstQos", argv[i]) == 0) { _reissueQosAndWorstQos = RSSL_TRUE; _qosRate = atoi(argv[++i]); _qosTimeliness = atoi(argv[++i]); _worstQosRate = atoi(argv[++i]); _worstQosTimeliness = atoi(argv[++i]); printf("\nReissueQoS for rate = %d and timeline = %d\n", _qosRate, _qosTimeliness); printf("ReissueWorstQos QoS for worstRate = %d and worstTimeliness = %d\n", _worstQosRate, _worstQosTimeliness); setReissueQosAndWorstQos(_qosRate, _qosTimeliness, _worstQosRate, _worstQosTimeliness); break; } else if (strcmp("-sendGenericMsgOnLogin", argv[i]) == 0) { _sendGenMsgOnLogin = RSSL_TRUE; break; } else if (strcmp("-sendGenericMsgOnDirectory", argv[i]) == 0) { _sendGenMsgOnDirectory = RSSL_TRUE; break; } else if (strcmp("-requestDict", argv[i]) == 0) { _initialDictFilter = atoi(argv[++i]); break; } else if (strcmp("-requestDir", argv[i]) == 0) { _initialDirFilter = atoi(argv[++i]); break; } else if (strcmp("-reissueServiceId", argv[i]) == 0) { _changeServiceId = atoi(argv[++i]); printf("\nReissueServiceId to service ID = %d\n", _changeServiceId); setReissueChangeServiceName(_changeServiceId); break; } else if (strcmp("-privateStreamForItemReq", argv[i]) == 0) { setPriviateStream(); ++i; } else if (strcmp("-requestSameKeyWithDiffStreamId", argv[i]) == 0) { setReqSameKeyWithDiffStreamId(); snprintf(itemName, 128, "%s", defaultItemName); addMarketPriceItemName(itemName, RSSL_FALSE); break; } else if (strcmp("-specificServiceId", argv[i]) == 0) { setSpecificServiceId(atoi(argv[++i])); ++i; } else if (strcmp("-sendDirReqWithoutLogin", argv[i]) == 0) { _sendDirReqWithoutLogin = RSSL_TRUE; ++i; } else if (strcmp("-sendDictReqWithoutLogin", argv[i]) == 0) { _sendDictReqWithoutLogin = RSSL_TRUE; ++i; } else if (strcmp("-sendItemReqWithoutLogin", argv[i]) == 0) { _sendItemReqWithoutLogin = RSSL_TRUE; ++i; } //END APIQA else if(strcmp("-libcryptoName", argv[i]) == 0) { i += 2; snprintf(libcryptoName, 128, "%s", argv[i-1]); initOpts.jitOpts.libcryptoName = libcryptoName; } else if(strcmp("-uname", argv[i]) == 0) { i += 2; setUsername(argv[i-1]); } else if(strcmp("-at", argv[i]) == 0) { i += 2; setAuthenticationToken(argv[i-1]); } else if(strcmp("-ax", argv[i]) == 0) { i += 2; setAuthenticationExtended(argv[i-1]); } else if(strcmp("-aid", argv[i]) == 0) { i += 2; setApplicationId(argv[i-1]); } else if(strcmp("-h", argv[i]) == 0) { i += 2; snprintf(srvrHostname, 128, "%s", argv[i-1]); } else if(strcmp("-p", argv[i]) == 0) { i += 2; snprintf(srvrPortNo, 128, "%s", argv[i-1]); } else if(strcmp("-ph", argv[i]) == 0) { i += 2; snprintf(proxyHostname, 128, "%s", argv[i-1]); } else if(strcmp("-pp", argv[i]) == 0) { i += 2; snprintf(proxyPort, 128, "%s", argv[i-1]); } else if(strcmp("-s", argv[i]) == 0) { i += 2; snprintf(serviceName, 128, "%s", argv[i-1]); } else if (strcmp("-c", argv[i]) == 0) { i += 1; if (0 == strcmp(argv[i], "socket") || 0 == strcmp(argv[i], "0")) connType = RSSL_CONN_TYPE_SOCKET; else if (0 == strcmp(argv[i], "http") || 0 == strcmp(argv[i], "2")) connType = RSSL_CONN_TYPE_HTTP; else if (0 == strcmp(argv[i], "encrypted") || 0 == strcmp(argv[i], "1")) connType = RSSL_CONN_TYPE_ENCRYPTED; else if (0 == strcmp(argv[i], "reliableMCast") || 0 == strcmp(argv[i], "4")) connType = RSSL_CONN_TYPE_RELIABLE_MCAST; else { connType = (RsslConnectionTypes)atoi(argv[i]); } i += 1; } else if (strcmp("-yc", argv[i]) == 0) { i += 2; /* add item name in yield curve handler */ addYieldCurveItemName(argv[i-1], RSSL_FALSE); ycItemReq = RSSL_TRUE; } else if(strcmp("-mp", argv[i]) == 0) { i += 2; /* add item name in market price handler */ addMarketPriceItemName(argv[i-1], RSSL_FALSE); mpItemReq = RSSL_TRUE; } else if(strcmp("-mbo", argv[i]) == 0) { i += 2; /* add item name in market by order handler */ addMarketByOrderItemName(argv[i-1], RSSL_FALSE); mboItemReq = RSSL_TRUE; } else if(strcmp("-mbp", argv[i]) == 0) { i += 2; /* add item name in market by price handler */ addMarketByPriceItemName(argv[i-1], RSSL_FALSE); mbpItemReq = RSSL_TRUE; } else if(strcmp("-sl", argv[i]) == 0) { i++; slReq = RSSL_TRUE; /* check the rest of the command line arguments */ if(i != argc) { /* check to see if next strings is the symbol list name */ if(!(strncmp("-", argv[i], 1))) { /* user didn't specifiy name */ setSymbolListInfo(RSSL_FALSE, slReq); } else { i++; setSymbolListName(argv[i-1]); setSymbolListInfo(RSSL_TRUE, slReq); } } else { /* no more command line arguments, so user didn't specifiy SL name */ setSymbolListInfo(RSSL_FALSE, slReq); } } else if(strcmp("-view", argv[i]) == 0) { i++; setViewRequest(); } else if (strcmp("-post", argv[i]) == 0) { i++; onPostEnabled = RSSL_TRUE; enableOnstreamPost(); } else if (strcmp("-x", argv[i]) == 0) { i++; xmlTrace = RSSL_TRUE; snprintf(traceOutputFile, 128, "RsslConsumer\0"); } else if (strcmp("-td", argv[i]) == 0) { i++; showTransportDetails = RSSL_TRUE; } else if (strcmp("-offpost", argv[i]) == 0) { i++; offPostEnabled = RSSL_TRUE; } else if(strcmp("-snapshot", argv[i]) == 0) { i++; setMPSnapshotRequest(); setMBOSnapshotRequest(); setMBPSnapshotRequest(); setSLSnapshotRequest(); setYCSnapshotRequest(); } else if(strcmp("-mpps", argv[i]) == 0) { i += 2; /* add item name in market price handler */ addMarketPriceItemName(argv[i-1], RSSL_TRUE); mpItemReq = RSSL_TRUE; } else if(strcmp("-mbops", argv[i]) == 0) { i += 2; /* add item name in market by order handler */ addMarketByOrderItemName(argv[i-1], RSSL_TRUE); mboItemReq = RSSL_TRUE; } else if(strcmp("-mbpps", argv[i]) == 0) { i += 2; /* add item name in market by price handler */ addMarketByPriceItemName(argv[i-1], RSSL_TRUE); mbpItemReq = RSSL_TRUE; } else if (strcmp("-ycps", argv[i]) == 0) { i += 2; /* add item name in yield curve handler */ addYieldCurveItemName(argv[i-1], RSSL_TRUE); ycItemReq = RSSL_TRUE; } else if(strcmp("-runtime", argv[i]) == 0) { i += 2; timeToRun = atoi(argv[i-1]); } else { printf("Error: Unrecognized option: %s\n\n", argv[i]); printf("Usage: %s or\n%s [-uname <LoginUsername>] [-h <SrvrHostname>] [-p <SrvrPortNo>] [-c <ConnType>] [-s <ServiceName>] [-view] [-post] [-offpost] [-snapshot] [-sl [<SymbolList Name>]] [-mp|-mpps <MarketPrice ItemName>] [-mbo|-mbops <MarketByOrder ItemName>] [-mbp|-mbpps <MarketByPrice ItemName>] [-runtime <seconds>] [-td]\n", argv[0], argv[0]); printf("\n -mp or -mpps For each occurance, requests item using Market Price domain. (-mpps for private stream)\n"); printf("\n -mbo or -mbops For each occurance, requests item using Market By Order domain. (-mbops for private stream)\n"); printf("\n -mbp or -mbpps For each occurance, requests item using Market By Price domain. (-mbpps for private stream)\n"); printf("\n -yc or -ycps For each occurance, requests item using Yield Curve domain. (-ycps for private stream)\n"); printf("\n -view specifies each request using a basic dynamic view.\n"); printf("\n -post specifies that the application should attempt to send post messages on the first requested Market Price item (i.e., on-stream)\n"); printf("\n -offpost specifies that the application should attempt to send post messages on the login stream (i.e., off-stream)\n"); printf("\n -snapshot specifies each request using non-streaming.\n"); printf("\n -sl requests symbol list using Symbol List domain. (symbol list name optional)\n"); printf("\n -td prints out additional transport details from rsslReadEx() and rsslWriteEx() function calls \n"); printf("\n -x provides an XML trace of messages.\n"); printf("\n -at Specifies the Authentication Token. If this is present, the login user name type will be RDM_LOGIN_USER_AUTHN_TOKEN.\n"); printf("\n -ax Specifies the Authentication Extended information.\n"); printf("\n -aid Specifies the Application ID.\n"); printf("\n -runtime adjusts the time the application runs.\n"); //APIQA printf("-sendGenericMsgOnLogin\n"); printf("-sendGenericMsgOnDirectory\n"); printf("-requestDict <verbosity>\n"); printf("-requestDir <filters>\n"); printf("-reissueServiceId <service ID>\n"); printf("-reissueDir <initial filter> <reissue filter>\n"); printf("-reissueDict <initial filter> <reissue filter>\n"); printf("-reissueQos <rate> <timeliness>\n"); printf("-reissueQosAndWorstQos <rate> <timeliness> <worstRate> <worstTimeliness>\n"); printf("\nRate value definition\n\t- rate == 0 then RSSL_QOS_RATE_TICK_BY_TICK\n\t- rate == -1 then RSSL_QOS_RATE_JIT_CONFLATED\n\t- if 0 < rate <= 65535, RSSL_QOS_RATE_TIME_CONFLATED using the rate for rateInfo\n"); printf("\nTimeliness value definition\n\t- timeliness == 0 then RSSL_QOS_TIME_REALTIME\n\t- timeliness == -1 then RSSL_QOS_TIME_DELAYED_UNKNOWN\n\t- if 0 < timeliness <= 65535, RSSL_QOS_TIME_DELAYED using the timelines for timeInfo"); //END APIQA #ifdef _WIN32 /* WINDOWS: wait for user to enter something before exiting */ printf("\nPress Enter or Return key to exit application:"); getchar(); #endif exit(RSSL_RET_FAILURE); } } //APIQA setDirectoryFilter(_initialDirFilter, _reissueDirFilter); setDictionaryFilter(_initialDictFilter, _reissueDictFilter); //END APIQA printf("Proxy host: %s\n", proxyHostname); printf("Proxy port: %s\n", proxyPort); printf("\nInput arguments...\n\n"); printf("Using Connection Type = %d\n", connType); printf("srvrHostname: %s\n", srvrHostname); printf("srvrPortNo: %s\n", srvrPortNo); printf("serviceName: %s\n", serviceName); /* if no items were requested but a command line was specified, use the default item */ if (!mpItemReq && !mboItemReq && !mbpItemReq && !slReq && !ycItemReq) { snprintf(itemName, 128, "%s", defaultItemName); /* add item name in market price handler */ addMarketPriceItemName(itemName, RSSL_FALSE); mpItemReq = RSSL_TRUE; } /* this application requires at least one market price item to be requested for on-stream posting to be performed */ if (onPostEnabled && !mpItemReq) { printf("\nPosting will not be performed as no Market Price items were requested\n"); onPostEnabled = RSSL_FALSE; } } /* set service name in directory handler */ setServiceName(serviceName); /* load dictionary */ //APIQA //loadDictionary(); if (_loadDictFromFile) { loadDictionary(); } //APIQA /* Initialize RSSL */ /* RSSL_LOCK_NONE is used since this is a single threaded application. */ if (rsslInitializeEx(&initOpts, &error) != RSSL_RET_SUCCESS) { printf("rsslInitialize(): failed <%s>\n", error.text); /* WINDOWS: wait for user to enter something before exiting */ #ifdef _WIN32 printf("\nPress Enter or Return key to exit application:"); getchar(); #endif exit(RSSL_RET_FAILURE); } FD_ZERO(&readfds); FD_ZERO(&exceptfds); FD_ZERO(&wrtfds); /* Initialize run-time */ initRuntime(); /* this is the main loop */ while(1) { /* this is the connection recovery loop */ while(shouldRecoverConnection) { /* Connect to RSSL server */ printf("\nAttempting to connect to server %s:%s...\n", srvrHostname, srvrPortNo); if ((rsslConsumerChannel = connectToRsslServer(connType, &error)) == NULL) { printf("Unable to connect to RSSL server: <%s>\n",error.text); } else { FD_SET(rsslConsumerChannel->socketId, &readfds); FD_SET(rsslConsumerChannel->socketId, &wrtfds); FD_SET(rsslConsumerChannel->socketId, &exceptfds); } if (rsslConsumerChannel != NULL && rsslConsumerChannel->state == RSSL_CH_STATE_ACTIVE) shouldRecoverConnection = RSSL_FALSE; /* Wait for channel to become active. This finalizes the three-way handshake. */ while (rsslConsumerChannel != NULL && rsslConsumerChannel->state != RSSL_CH_STATE_ACTIVE) { useRead = readfds; useWrt = wrtfds; useExcept = exceptfds; /* Set a timeout value if the provider accepts the connection, but does not initialize it */ time_interval.tv_sec = 60; time_interval.tv_usec = 0; selRet = select(FD_SETSIZE, &useRead, &useWrt, &useExcept, &time_interval); /* select has timed out, close the channel and attempt to reconnect */ if(selRet == 0) { printf("\nChannel initialization has timed out, attempting to reconnect...\n"); FD_CLR(rsslConsumerChannel->socketId, &readfds); FD_CLR(rsslConsumerChannel->socketId, &exceptfds); if (FD_ISSET(rsslConsumerChannel->socketId, &wrtfds)) FD_CLR(rsslConsumerChannel->socketId, &wrtfds); recoverConnection(); } else /* Received a response from the provider. */ if(selRet > 0 && (FD_ISSET(rsslConsumerChannel->socketId, &useRead) || FD_ISSET(rsslConsumerChannel->socketId, &useWrt) || FD_ISSET(rsslConsumerChannel->socketId, &useExcept))) { if (rsslConsumerChannel->state == RSSL_CH_STATE_INITIALIZING) { FD_CLR(rsslConsumerChannel->socketId,&wrtfds); if ((retval = rsslInitChannel(rsslConsumerChannel, &inProg, &error)) < RSSL_RET_SUCCESS) { printf("\nchannelInactive fd="SOCKET_PRINT_TYPE" <%s>\n", rsslConsumerChannel->socketId,error.text); recoverConnection(); break; } else { switch (retval) { case RSSL_RET_CHAN_INIT_IN_PROGRESS: if (inProg.flags & RSSL_IP_FD_CHANGE) { printf("\nChannel In Progress - New FD: "SOCKET_PRINT_TYPE" Old FD: "SOCKET_PRINT_TYPE"\n",rsslConsumerChannel->socketId, inProg.oldSocket ); FD_CLR(inProg.oldSocket,&readfds); FD_CLR(inProg.oldSocket,&exceptfds); FD_SET(rsslConsumerChannel->socketId,&readfds); FD_SET(rsslConsumerChannel->socketId,&exceptfds); FD_SET(rsslConsumerChannel->socketId,&wrtfds); } else { printf("\nChannel "SOCKET_PRINT_TYPE" In Progress...\n", rsslConsumerChannel->socketId); //Sleep(1000); } break; case RSSL_RET_SUCCESS: { RsslChannelInfo chanInfo; printf("\nChannel "SOCKET_PRINT_TYPE" Is Active\n" ,rsslConsumerChannel->socketId); /* reset should recover connection flag */ shouldRecoverConnection = RSSL_FALSE; /* if device we connect to supports connected component versioning, * also display the product version of what this connection is to */ if ((retval = rsslGetChannelInfo(rsslConsumerChannel, &chanInfo, &error)) >= RSSL_RET_SUCCESS) { RsslUInt32 i; for (i = 0; i < chanInfo.componentInfoCount; i++) { printf("Connected to %s device.\n", chanInfo.componentInfo[i]->componentVersion.data); } } } break; default: printf("\nBad return value fd="SOCKET_PRINT_TYPE" <%s>\n", rsslConsumerChannel->socketId,error.text); cleanUpAndExit(); break; } } } } else if(selRet < 0) { printf("\nSelect error.\n"); cleanUpAndExit(); } handleRuntime(); } /* sleep before trying again */ if (shouldRecoverConnection) { for(i = 0; i < CONSUMER_CONNECTION_RETRY_TIME; ++i) { #ifdef _WIN32 Sleep(1000); #else sleep(1); #endif handleRuntime(); } } } /* WINDOWS: change size of send/receive buffer since it's small by default */ #ifdef _WIN32 if (rsslIoctl(rsslConsumerChannel, RSSL_SYSTEM_WRITE_BUFFERS, &sendBfrSize, &error) != RSSL_RET_SUCCESS) { printf("rsslIoctl(): failed <%s>\n", error.text); } if (rsslIoctl(rsslConsumerChannel, RSSL_SYSTEM_READ_BUFFERS, &rcvBfrSize, &error) != RSSL_RET_SUCCESS) { printf("rsslIoctl(): failed <%s>\n", error.text); } #endif /* Initialize ping handler */ initPingHandler(rsslConsumerChannel); /* Send login request message */ isLoginReissue = RSSL_FALSE; //APIQA /*if (sendLoginRequest(rsslConsumerChannel, "rsslConsumer", RSSL_CONSUMER, &loginSuccessCallBack) != RSSL_RET_SUCCESS) { cleanUpAndExit(); }*/ if (!_sendDirReqWithoutLogin && !_sendDictReqWithoutLogin && !_sendItemReqWithoutLogin) { if (sendLoginRequest(rsslConsumerChannel, "rsslConsumer", RSSL_CONSUMER, &loginSuccessCallBack) != RSSL_RET_SUCCESS) { cleanUpAndExit(); } } else { printf("FALSE\n"); if (_sendDirReqWithoutLogin) { sendSourceDirectoryRequest(rsslConsumerChannel, _sendGenMsgOnDirectory); } else if (_sendDictReqWithoutLogin) { sendDictionaryRequest(rsslConsumerChannel, "RWFFld", FIELD_DICTIONARY_STREAM_ID, _initialDictFilter); sendDictionaryRequest(rsslConsumerChannel, "RWFEnum", ENUM_TYPE_DICTIONARY_STREAM_ID, _initialDictFilter); } else if (_sendItemReqWithoutLogin) { printf("Sending MP REQUEST\n"); sendMarketPriceItemRequests(rsslConsumerChannel); } } //END APIQA /* this is the message processing loop */ while(1) { useRead = readfds; useExcept = exceptfds; useWrt = wrtfds; time_interval.tv_sec = 1; time_interval.tv_usec = 0; /* Call select() to check for any messages */ selRet = select(FD_SETSIZE,&useRead, &useWrt,&useExcept,&time_interval); if (selRet < 0) /* no messages received, continue */ { #ifdef _WIN32 if (WSAGetLastError() == WSAEINTR) continue; #else if (errno == EINTR) { continue; } #endif } else if (selRet > 0) /* messages received, read from channel */ { if ((rsslConsumerChannel != NULL) && (rsslConsumerChannel->socketId != -1)) { if ((FD_ISSET(rsslConsumerChannel->socketId, &useRead)) || (FD_ISSET(rsslConsumerChannel->socketId, &useExcept))) { if (readFromChannel(rsslConsumerChannel) != RSSL_RET_SUCCESS) recoverConnection(); } /* flush for write file descriptor and active state */ if (rsslConsumerChannel != NULL && FD_ISSET(rsslConsumerChannel->socketId, &useWrt) && rsslConsumerChannel->state == RSSL_CH_STATE_ACTIVE) { if ((retval = rsslFlush(rsslConsumerChannel, &error)) < RSSL_RET_SUCCESS) { printf("rsslFlush() failed with return code %d - <%s>\n", retval, error.text); } else if (retval == RSSL_RET_SUCCESS) { /* clear write fd */ FD_CLR(rsslConsumerChannel->socketId, &wrtfds); } } } } /* break out of message processing loop if should recover connection */ if (shouldRecoverConnection == RSSL_TRUE) { printf("Recovering connection in 5 seconds\n"); connectionRecovery = RSSL_TRUE; #ifdef _WIN32 Sleep(5000); #else sleep(5); #endif break; } /* Handle pings */ handlePings(rsslConsumerChannel); /* Handle run-time */ handleRuntime(); if (onPostEnabled || offPostEnabled) { /* if configured to post, send post messages if its time */ /* Handle Post */ if (handlePosts(rsslConsumerChannel, connectionRecovery) != RSSL_RET_SUCCESS) recoverConnection(); connectionRecovery = RSSL_FALSE; } if ((currentTime = time(NULL)) < 0) { printf("time() failed.\n"); } // send login reissue if login reissue time has passed if (canSendLoginReissue == RSSL_TRUE && currentTime >= (RsslInt)loginReissueTime) { isLoginReissue = RSSL_TRUE; if (sendLoginRequest(rsslConsumerChannel, "rsslConsumer", RSSL_CONSUMER, &loginSuccessCallBack) != RSSL_RET_SUCCESS) { printf("Login reissue failed\n"); } else { printf("Login reissue sent\n"); } canSendLoginReissue = RSSL_FALSE; } } } }
/*** MAIN ***/ int main(int argc, char **argv) { RsslErrorInfo error; RsslError rsslErr; RsslCreateReactorOptions reactorOpts; RsslReactorDispatchOptions dispatchOpts; RsslInt32 j; RsslReactorOMMNIProviderRole role; RsslDataDictionary dictionary = RSSL_INIT_DATA_DICTIONARY; char err[128]; RsslBuffer errBuf = {128, &err[0]}; int selRet; time_t currentTime = 0; RsslRet ret; RsslInitializeExOpts initOpts = RSSL_INIT_INITIALIZE_EX_OPTS; rsslInitNIChannelCommand(&chnlCommand); handleConfig(argc, argv, &chnlCommand); initializeCache(cacheCommandlineOption); initOpts.jitOpts.libcryptoName = libcryptoName; initOpts.jitOpts.libsslName = libsslName; initOpts.jitOpts.libcurlName = libcurlName; initOpts.rsslLocking = RSSL_LOCK_GLOBAL_AND_CHANNEL; /* Initialize run-time */ initRuntime(); rsslInitializeEx(&initOpts, &rsslErr); /* Setup role */ rsslClearOMMNIProviderRole((RsslReactorOMMNIProviderRole*)&role); role.pLoginRequest = (RsslRDMLoginRequest*)&chnlCommand.loginRequest; role.loginMsgCallback = processLoginResponse; role.pDirectoryRefresh = &chnlCommand.directoryRefresh; role.base.channelEventCallback = channelEventCallback; role.base.defaultMsgCallback = processResponse; printf("Connections:\n"); chnlCommand.pRole = (RsslReactorChannelRole*)&role; chnlCommand.cOpts.rsslConnectOptions.guaranteedOutputBuffers = 500; chnlCommand.cOpts.rsslConnectOptions.majorVersion = RSSL_RWF_MAJOR_VERSION; chnlCommand.cOpts.rsslConnectOptions.minorVersion = RSSL_RWF_MINOR_VERSION; chnlCommand.cOpts.rsslConnectOptions.userSpecPtr = (void*)&chnlCommand; // printf(" %s:%s:%s\n", chnlCommand.hostName, chnlCommand.port, chnlCommand.serviceName); printf(" MarketPriceItems:"); for(j = 0; j < CHAN_CMD_MAX_ITEMS; ++j) { RsslNIItemInfo *pItem = &chnlCommand.marketPriceItemInfo[j]; if (pItem->isActive) printf(" %.*s", (int)sizeof(pItem->Itemname), pItem->Itemname); } printf(" MarketByOrderItems:"); for(j = 0; j < CHAN_CMD_MAX_ITEMS; ++j) { RsslNIItemInfo *pItem = &chnlCommand.marketByOrderItemInfo[j]; if (pItem->isActive) printf(" %.*s", (int)sizeof(pItem->Itemname), pItem->Itemname); } printf("\n"); printf("\n"); /* Load local dictionary */ if(rsslLoadFieldDictionary("RDMFieldDictionary", &dictionary, &errBuf) < RSSL_RET_SUCCESS) { printf("Dictionary error: %s\n", errBuf.data); exit(-1); } chnlCommand.dictionary = &dictionary; initializeCacheDictionary(&dictionary); rsslClearCreateReactorOptions(&reactorOpts); reactorOpts.dispatchDecodeMemoryBufferSize = 1024; setupLoginRequest(&chnlCommand, 1); setupDirectoryResponseMsg(&chnlCommand, -1); if (!(pReactor = rsslCreateReactor(&reactorOpts, &error))) { printf("Error: %s", error.rsslError.text); exit(-1); } FD_ZERO(&readFds); FD_ZERO(&writeFds); FD_ZERO(&exceptFds); FD_SET(pReactor->eventFd, &readFds); if (rsslReactorConnect(pReactor, &chnlCommand.cOpts, chnlCommand.pRole, &error) != RSSL_RET_SUCCESS) printf("Error rsslReactorConnect(): %s\n", error.rsslError.text); rsslClearReactorDispatchOptions(&dispatchOpts); //dispatchOpts.pReactorChannel = &chnlCommand.reactorChannel; printf("Connection started!\n"); while ( RSSL_TRUE ) { struct timeval selectTime; int dispatchCount = 0; fd_set useReadFds = readFds, useWriteFds = writeFds, useExceptFds = exceptFds; selectTime.tv_sec = 1; selectTime.tv_usec = 0; handleRuntime(); selRet = select(FD_SETSIZE, &useReadFds, &useWriteFds, &useExceptFds, &selectTime); if (selRet == 0 ) /* no messages received, send updates and continue */ { // Update items updateItemInfo(&chnlCommand); /* Send market price updates for each connected channel */ if (chnlCommand.startWrite == RSSL_TRUE) { if ((chnlCommand.reactorChannel != NULL) && (chnlCommand.reactorChannel->socketId != -1)) { if (sendItemUpdates(pReactor,chnlCommand.reactorChannel) != RSSL_RET_SUCCESS) recoverConnection(pReactor, chnlCommand.reactorChannel, &chnlCommand); } } else { if (cacheInfo.useCache) cacheItemData(&chnlCommand); } } else if (selRet > 0) { RsslRet ret; while ((ret = rsslReactorDispatch(pReactor, &dispatchOpts, &error)) > 0); if(ret < 0) { printf("dispatch error! %i\n %s\n %s\n", ret, error.rsslError.text, error.errorLocation); /* Reactor has shutdown. Clean up and exit. */ cleanUpAndExit(); } } /* get current time */ if ((currentTime = time(NULL)) < 0) { printf("time() failed.\n"); } // send login reissue if login reissue time has passed if (chnlCommand.canSendLoginReissue == RSSL_TRUE && currentTime >= (RsslInt)chnlCommand.loginReissueTime) { RsslReactorSubmitMsgOptions submitMsgOpts; RsslErrorInfo rsslErrorInfo; rsslClearReactorSubmitMsgOptions(&submitMsgOpts); submitMsgOpts.pRDMMsg = (RsslRDMMsg*)chnlCommand.pRole->ommNIProviderRole.pLoginRequest; if ((ret = rsslReactorSubmitMsg(pReactor,chnlCommand.reactorChannel,&submitMsgOpts,&rsslErrorInfo)) != RSSL_RET_SUCCESS) { printf("Login reissue failed: %d(%s)\n", ret, rsslErrorInfo.rsslError.text); } else { printf("Login reissue sent\n"); } chnlCommand.canSendLoginReissue = RSSL_FALSE; } } }
int main(int argc, char **argv) { int i, j; struct timeval time_interval; fd_set useRead; fd_set useExcept; int selRet; char errTxt[256]; RsslBuffer errorText = {255, (char*)errTxt}; RsslInProgInfo inProg = RSSL_INIT_IN_PROG_INFO; RsslRet retval = 0; int iargs; RsslErrorInfo rsslErrorInfo; RsslBool cacheOption = RSSL_FALSE; RsslReactorOMMProviderRole providerRole; RsslBindOptions sopts = RSSL_INIT_BIND_OPTS; RsslCreateReactorOptions reactorOpts; RsslReactorDispatchOptions dispatchOpts; time_t nextSendTime; /* Initialize RSSL. The locking mode RSSL_LOCK_GLOBAL_AND_CHANNEL is required to use the RsslReactor. */ if (rsslInitialize(RSSL_LOCK_GLOBAL_AND_CHANNEL, &rsslErrorInfo.rsslError) != RSSL_RET_SUCCESS) { printf("rsslInitialize(): failed <%s>\n",rsslErrorInfo.rsslError.text); /* WINDOWS: wait for user to enter something before exiting */ #ifdef _WIN32 printf("\nPress Enter or Return key to exit application:"); getchar(); #endif exit(RSSL_RET_FAILURE); } rsslClearOMMProviderRole(&providerRole); providerRole.base.channelEventCallback = channelEventCallback; providerRole.base.defaultMsgCallback = defaultMsgCallback; providerRole.loginMsgCallback = loginMsgCallback; providerRole.directoryMsgCallback = directoryMsgCallback; providerRole.dictionaryMsgCallback = dictionaryMsgCallback; providerRole.tunnelStreamListenerCallback = tunnelStreamListenerCallback; rsslClearCreateReactorOptions(&reactorOpts); if (!(pReactor = rsslCreateReactor(&reactorOpts, &rsslErrorInfo))) { printf("Reactor creation failed: %s\n", rsslErrorInfo.rsslError.text); cleanUpAndExit(); } snprintf(portNo, 128, "%s", defaultPortNo); snprintf(serviceName, 128, "%s", defaultServiceName); setServiceId(1); for(iargs = 1; iargs < argc; ++iargs) { if (0 == strcmp("-p", argv[iargs])) { ++iargs; if (iargs == argc) exitWithUsage(); snprintf(portNo, 128, "%s", argv[iargs]); } else if (0 == strcmp("-s", argv[iargs])) { ++iargs; if (iargs == argc) exitWithUsage(); snprintf(serviceName, 128, "%s", argv[iargs]); } else if (0 == strcmp("-id", argv[iargs])) { long tmpId = 0; ++iargs; if (iargs == argc) exitWithUsage(); tmpId = atol(argv[iargs]); if (tmpId < 0) { printf("ServiceId must be positive.\n"); exitWithUsage(); } setServiceId(tmpId); } else if (0 == strcmp("-x", argv[iargs])) { xmlTrace = RSSL_TRUE; snprintf(traceOutputFile, 128, "RsslVAProvider\0"); } else if (0 == strcmp("-runtime", argv[iargs])) { ++iargs; if (iargs == argc) exitWithUsage(); timeToRun = atoi(argv[iargs]); } else if (0 == strcmp("-cache", argv[iargs])) { cacheOption = RSSL_TRUE; } else { printf("Error: Unrecognized option: %s\n\n", argv[iargs]); exitWithUsage(); } } printf("portNo: %s\n", portNo); printf("serviceName: %s\n", serviceName); printf("serviceId: %llu\n", getServiceId()); /* Initialiize client session information */ for (i = 0; i < MAX_CLIENT_SESSIONS; i++) { clearClientSessionInfo(&clientSessions[i]); } initializeCache(cacheOption); /* Initialize login handler */ initLoginHandler(); /* Initialize source directory handler */ initDirectoryHandler(); /* Initialize dictionary provider */ initDictionaryProvider(); /* Initialize market price handler */ initItemHandler(); /* Initialize symbol list item list */ initSymbolListItemList(); /* Initialize market by order items */ initMarketByOrderItems(); /* set service name in directory handler */ setServiceName(serviceName); /* load dictionary */ if (loadDictionary() != RSSL_RET_SUCCESS) { /* exit if dictionary cannot be loaded */ /* WINDOWS: wait for user to enter something before exiting */ #ifdef _WIN32 printf("\nPress Enter or Return key to exit application:"); getchar(); #endif exit(RSSL_RET_FAILURE); } initializeCacheDictionary(); /* Initialize run-time */ initRuntime(); FD_ZERO(&readFds); FD_ZERO(&exceptFds); sopts.guaranteedOutputBuffers = 500; sopts.serviceName = portNo; sopts.majorVersion = RSSL_RWF_MAJOR_VERSION; sopts.minorVersion = RSSL_RWF_MINOR_VERSION; sopts.protocolType = RSSL_RWF_PROTOCOL_TYPE; /* Create the server. */ if (!(rsslSrvr = rsslBind(&sopts, &rsslErrorInfo.rsslError))) { printf("Unable to bind RSSL server: <%s>\n",rsslErrorInfo.rsslError.text); /* WINDOWS: wait for user to enter something before exiting */ #ifdef _WIN32 printf("\nPress Enter or Return key to exit application:"); getchar(); #endif exit(RSSL_RET_FAILURE); } FD_SET(rsslSrvr->socketId, &readFds); FD_SET(pReactor->eventFd, &readFds); rsslClearReactorDispatchOptions(&dispatchOpts); dispatchOpts.maxMessages = MAX_CLIENT_SESSIONS; // initialize next send time nextSendTime = time(NULL) + UPDATE_INTERVAL; /* this is the main loop */ while(RSSL_TRUE) { useRead = readFds; useExcept = exceptFds; time_interval.tv_sec = UPDATE_INTERVAL; time_interval.tv_usec = 0; /* Call select() to check for any messages */ selRet = select(FD_SETSIZE,&useRead, NULL,&useExcept,&time_interval); if (selRet > 0) { RsslRet ret; /* Accept connection, if one is waiting */ if (FD_ISSET(rsslSrvr->socketId, &useRead)) { RsslClientSessionInfo *pClientSessionInfo = NULL; RsslReactorAcceptOptions aopts; rsslClearReactorAcceptOptions(&aopts); /* find an available client session */ for (i = 0; i < MAX_CLIENT_SESSIONS; i++) { if (!clientSessions[i].isInUse) { pClientSessionInfo = &clientSessions[i]; pClientSessionInfo->isInUse = RSSL_TRUE; break; } } /* Reject the channel if we are out of client sessions */ if (!pClientSessionInfo) aopts.rsslAcceptOptions.nakMount = RSSL_TRUE; else aopts.rsslAcceptOptions.userSpecPtr = pClientSessionInfo; printf("Accepting new connection...\n"); if (rsslReactorAccept(pReactor, rsslSrvr, &aopts, (RsslReactorChannelRole*)&providerRole, &rsslErrorInfo) != RSSL_RET_SUCCESS) { printf("rsslReactorAccept() failed: %s(%s)\n", rsslErrorInfo.rsslError.text, rsslErrorInfo.errorLocation); cleanUpAndExit(); } } /* Call rsslReactorDispatch(). This will handle any events that have occurred on its channels. * If there are events or messages for the application to process, they will be delivered * through the callback functions given by the providerRole object. * A return value greater than RSSL_RET_SUCCESS indicates there may be more to process. */ while ((ret = rsslReactorDispatch(pReactor, &dispatchOpts, &rsslErrorInfo)) > RSSL_RET_SUCCESS) ; if (ret < RSSL_RET_SUCCESS) { printf("rsslReactorDispatch() failed: %s\n", rsslErrorInfo.rsslError.text); cleanUpAndExit(); } } else if (selRet < 0) { #ifdef _WIN32 if (WSAGetLastError() == WSAEINTR) continue; printf("Error: select: %d\n", WSAGetLastError()); #else if (errno == EINTR) continue; perror("select"); #endif cleanUpAndExit(); } // send any updates at next send time if (time(NULL) >= nextSendTime) { /* Send market price updates for each connected channel */ updateItemInfo(); for (i = 0; i < MAX_CLIENT_SESSIONS; i++) { if (clientSessions[i].clientChannel != NULL) { if (sendItemUpdates(pReactor, clientSessions[i].clientChannel) != RSSL_RET_SUCCESS) { removeClientSessionForChannel(pReactor, clientSessions[i].clientChannel); } // send any tunnel stream messages for (j = 0; j < MAX_TUNNEL_STREAMS; j++) { if (clientSessions[i].simpleTunnelMsgHandler[j].tunnelStreamHandler.pTunnelStream != NULL) { handleSimpleTunnelMsgHandler(pReactor, clientSessions[i].clientChannel, &clientSessions[i].simpleTunnelMsgHandler[j]); } } } } nextSendTime += UPDATE_INTERVAL; } /* Handle run-time */ handleRuntime(); } }
/*** MAIN ***/ int main(int argc, char **argv) { RsslRet ret; RsslCreateReactorOptions reactorOpts; RsslErrorInfo rsslErrorInfo; RsslReactorOMMConsumerRole consumerRole; RsslRDMLoginRequest loginRequest; RsslRDMDirectoryRequest dirRequest; RsslReactorDispatchOptions dispatchOpts; ChannelStorage *pCommand = &chanCommand; RsslReactorConnectOptions *pOpts = &pCommand->cOpts; RsslReactorConnectInfo *pInfo = &pCommand->cInfo; RsslUInt32 i; /* Initialize RSSL. The locking mode RSSL_LOCK_GLOBAL_AND_CHANNEL is required to use the RsslReactor. */ if (rsslInitialize(RSSL_LOCK_GLOBAL_AND_CHANNEL, &rsslErrorInfo.rsslError) != RSSL_RET_SUCCESS) { printf("rsslInitialize(): failed <%s>\n", rsslErrorInfo.rsslError.text); exitApp(-1); } initChannelStorage(&chanCommand); /* Initialize parameters from config. */ parseCommandLine(argc, argv); /* Initialize run-time */ initRuntime(); /* Initialize the default login request(Use 1 as the Login Stream ID). */ if (rsslInitDefaultRDMLoginRequest(&loginRequest, 1) != RSSL_RET_SUCCESS) { printf("rsslInitDefaultRDMLoginRequest() failed\n"); cleanUpAndExit(-1); } if (userName.length) loginRequest.userName = userName; /* Initialize the default directory request(Use 2 as the Directory Stream Id) */ if (rsslInitDefaultRDMDirectoryRequest(&dirRequest, 2) != RSSL_RET_SUCCESS) { printf("rsslInitDefaultRDMDirectoryRequest() failed\n"); cleanUpAndExit(-1); } /* Setup callback functions and use them on all connections*/ rsslClearOMMConsumerRole(&consumerRole); consumerRole.loginMsgCallback = loginMsgCallback; consumerRole.directoryMsgCallback = directoryMsgCallback; // consumerRole.dictionaryMsgCallback = dictionaryMsgCallback; consumerRole.base.channelEventCallback = channelEventCallback; consumerRole.base.defaultMsgCallback = defaultMsgCallback; /* Set the messages to send when the channel is up */ consumerRole.pLoginRequest = &loginRequest; consumerRole.pDirectoryRequest = &dirRequest; printf("Connections:\n"); /* Print out a summary of the connections and desired items. */ printf(" %s:%s\n", pCommand->hostName, pCommand->port); printf(" QueueService: %s\n", pCommand->queueServiceName); printf(" Source Queue: %s\n", pCommand->sourceName.data); printf(" Dest Queues:"); for (i = 0; i < pCommand->destNameCount; ++i) printf(" %s", pCommand->destNames[i].data); printf("\n\n"); /* Initialize connection options and try to load dictionaries. */ pCommand->pRole = (RsslReactorChannelRole*)&consumerRole; pInfo->rsslConnectOptions.guaranteedOutputBuffers = 500; pInfo->rsslConnectOptions.majorVersion = RSSL_RWF_MAJOR_VERSION; pInfo->rsslConnectOptions.minorVersion = RSSL_RWF_MINOR_VERSION; pInfo->rsslConnectOptions.userSpecPtr = &chanCommand; pInfo->initializationTimeout = 5; pOpts->reactorConnectionList = pInfo; pOpts->connectionCount = 1; pOpts->reconnectAttemptLimit = -1; pOpts->reconnectMaxDelay = 5000; pOpts->reconnectMinDelay = 1000; printf("\n"); /* Create an RsslReactor which will manage our channels. */ rsslClearCreateReactorOptions(&reactorOpts); if (!(pReactor = rsslCreateReactor(&reactorOpts, &rsslErrorInfo))) { printf("Error: %s", rsslErrorInfo.rsslError.text); exit(-1); } FD_ZERO(&readFds); FD_ZERO(&exceptFds); /* Set the reactor's event file descriptor on our descriptor set. This, along with the file descriptors * of RsslReactorChannels, will notify us when we should call rsslReactorDispatch(). */ FD_SET(pReactor->eventFd, &readFds); printf("Adding connection to %s:%s...\n", pCommand->cInfo.rsslConnectOptions.connectionInfo.unified.address, pCommand->cInfo.rsslConnectOptions.connectionInfo.unified.serviceName ); if (rsslReactorConnect(pReactor, &pCommand->cOpts, pCommand->pRole, &rsslErrorInfo) != RSSL_RET_SUCCESS) { printf("Error rsslReactorConnect(): %s\n", rsslErrorInfo.rsslError.text); } printf("\n"); rsslClearReactorDispatchOptions(&dispatchOpts); /* Main loop. The loop * calls select() to wait for notification, then calls rsslReactorDispatch(). */ do { struct timeval selectTime; int dispatchCount = 0; fd_set useReadFds = readFds, useExceptFds = exceptFds; selectTime.tv_sec = 1; selectTime.tv_usec = 0; handleRuntime(); if (!runTimeExpired) { if (handleQueueMessaging(pReactor, &chanCommand) != RSSL_RET_SUCCESS) cleanUpAndExit(-1); } ret = select(FD_SETSIZE, &useReadFds, NULL, &useExceptFds, &selectTime); if (ret < 0) { #ifdef _WIN32 if (WSAGetLastError() == WSAEINTR) continue; printf("Error: select: %d\n", WSAGetLastError()); #else if (errno == EINTR) continue; perror("select"); #endif cleanUpAndExit(-1); } /* Call rsslReactorDispatch(). This will handle any events that have occurred on its channels. * If there are events or messages for the application to process, they will be delivered * through the callback functions given by the consumerRole object. * A return value greater than RSSL_RET_SUCCESS indicates there may be more to process. */ while ((ret = rsslReactorDispatch(pReactor, &dispatchOpts, &rsslErrorInfo)) > RSSL_RET_SUCCESS) ; if (ret < RSSL_RET_SUCCESS) { printf("rsslReactorDispatch() failed: %s\n", rsslErrorInfo.rsslError.text); cleanUpAndExit(-1); } } while(ret >= RSSL_RET_SUCCESS); cleanUpAndExit(-1); }