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)
{
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;
}
}
}
RSSL_THREAD_DECLARE(runReactorConnectionHandler, pArg)
{
ProviderThread *pProvThread = (ProviderThread*)pArg;
TimeValue nextTickTime;
RsslInt32 currentTicks = 0;
TimeValue currentTime;
RsslRet ret;
int selRet;
struct timeval time_interval;
fd_set useRead;
fd_set useExcept;
fd_set useWrt;
RsslErrorInfo rsslErrorInfo;
RsslReactorDispatchOptions dispatchOptions;
RsslCreateReactorOptions reactorOpts;
rsslClearReactorDispatchOptions(&dispatchOptions);
if (pProvThread->cpuId >= 0)
{
if (bindThread(pProvThread->cpuId) != RSSL_RET_SUCCESS)
{
printf("Error: Failed to bind thread to core %d.\n", pProvThread->cpuId);
exit(-1);
}
}
// create reactor
rsslClearCreateReactorOptions(&reactorOpts);
if (!(pProvThread->pReactor = rsslCreateReactor(&reactorOpts, &rsslErrorInfo)))
{
printf("Reactor creation failed: %s\n", rsslErrorInfo.rsslError.text);
cleanUpAndExit();
}
FD_ZERO(&pProvThread->readfds);
FD_ZERO(&pProvThread->wrtfds);
FD_ZERO(&pProvThread->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(pProvThread->pReactor->eventFd, &pProvThread->readfds);
nextTickTime = getTimeNano() + nsecPerTick;
/* this is the main loop */
while(rtrLikely(!signal_shutdown))
{
/* Loop on select(), looking for channels with available data, until stopTimeNsec is reached. */
do
{
#ifdef WIN32
/* Windows does not allow select() to be called with empty file descriptor sets. */
if (pProvThread->readfds.fd_count == 0)
{
currentTime = getTimeNano();
selRet = 0;
Sleep((DWORD)((currentTime < nextTickTime) ? (nextTickTime - currentTime)/1000000 : 0));
}
else
#endif
{
useRead = pProvThread->readfds;
useWrt = pProvThread->wrtfds;
useExcept = pProvThread->exceptfds;
currentTime = getTimeNano();
time_interval.tv_usec = (long)((currentTime < nextTickTime) ? (nextTickTime - currentTime)/1000 : 0);
time_interval.tv_sec = 0;
selRet = select(FD_SETSIZE, &useRead, &useWrt, &useExcept, &time_interval);
}
if (selRet == 0)
{
break;
}
else if (selRet > 0)
{
while ((ret = rsslReactorDispatch(pProvThread->pReactor, &dispatchOptions, &rsslErrorInfo)) > RSSL_RET_SUCCESS) {}
if (ret < RSSL_RET_SUCCESS)
{
printf("rsslReactorDispatch failed with return code: %d error = %s\n", ret, rsslErrorInfo.rsslError.text);
exit(-1);
}
}
#ifdef WIN32
else if (WSAGetLastError() != WSAEINTR)
#else
else if (errno != EINTR)
#endif
{
perror("select");
exit(-1);
}
} while (currentTime < nextTickTime);
nextTickTime += nsecPerTick;
providerThreadSendMsgBurst(pProvThread, nextTickTime);
}
return RSSL_THREAD_RETURN();
}
/*** 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);
}
