//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;
}
}
}
}
void
ConnRead(TConn * const connectionP,
uint32_t const timeout,
bool * const eofP,
bool * const timedOutP,
const char ** const errorP) {
/*----------------------------------------------------------------------------
Read some stuff on connection *connectionP from the channel. Read it into
the connection's buffer.
Don't wait more than 'timeout' seconds for data to arrive. If no data has
arrived by then and 'timedOutP' is null, fail. If 'timedOut' is non-null,
return as *timedOutP whether 'timeout' seconds passed without any data
arriving.
Also, stop waiting upon any interruption and treat it the same as a
timeout. An interruption is either a signal received (and caught) at
an appropriate time or a ChannelInterrupt() call before or during the
wait.
If 'eofP' is non-null, return *eofP == true, without reading anything, iff
there will no more data forthcoming on the connection because client has
closed the connection. If 'eofP' is null, fail in that case.
-----------------------------------------------------------------------------*/
uint32_t const timeoutMs = timeout * 1000;
if (timeoutMs < timeout)
/* Arithmetic overflow */
xmlrpc_asprintf(errorP, "Timeout value is too large");
else {
bool const waitForRead = TRUE;
bool const waitForWrite = FALSE;
bool readyForRead;
bool failed;
ChannelWait(connectionP->channelP, waitForRead, waitForWrite,
timeoutMs, &readyForRead, NULL, &failed);
if (failed)
xmlrpc_asprintf(errorP,
"Wait for stuff to arrive from client failed.");
else {
bool eof;
if (readyForRead) {
readFromChannel(connectionP, &eof, errorP);
} else {
/* Wait was interrupted, either by our requested timeout,
a (caught) signal, or a ChannelInterrupt().
*/
traceReadTimeout(connectionP, timeout);
*errorP = NULL;
eof = FALSE;
}
if (!*errorP)
dealWithReadTimeout(timedOutP, !readyForRead, timeout, errorP);
if (!*errorP)
dealWithReadEof(eofP, eof, errorP);
}
}
}
