bool GridClientObjectWrapperConvertor::wrapSimpleType(const GridClientVariant& var, ObjectWrapper& objWrapper) { objWrapper.set_type(NONE); GridClientVariantVisitorImpl visitor(objWrapper); objWrapper.set_binary((void*) NULL, 0); var.accept(visitor); return objWrapper.type() != NONE; }
template<class T> void unwrapCollection(const ObjectWrapper& objWrapper, std::vector<T>& res) { assert(objWrapper.type() == COLLECTION); assert(objWrapper.has_binary()); res.clear(); ::Collection coll; unmarshalMsg(objWrapper.binary().c_str(), objWrapper.binary().size(), coll); unwrapCollection(coll, res); }
template<class K, class V> void unwrapMap(ObjectWrapper objWrapper, std::map<K, V>& res) { assert(objWrapper.type() == MAP); assert(objWrapper.has_binary()); res.clear(); ::Map map; unmarshalMsg((int8_t*) objWrapper.binary().c_str(), objWrapper.binary().size(), map); const ::google::protobuf::RepeatedPtrField< ::KeyValue >& repFileds = map.entry(); std::for_each(repFileds.begin(), repFileds.end(), MapInserter<K, V, ::KeyValue>(res)); }
static bool doUnwrapSimpleType(const ObjectWrapper& objWrapper, GridClientVariant& var) { assert(objWrapper.has_binary()); GG_LOG_DEBUG("Unwrap simple type: %s", objWrapper.DebugString().c_str()); string binary = objWrapper.binary(); bool unwrapRes = false; switch (objWrapper.type()) { case NONE: return true; case BOOL: return getBoolValue(binary, var); case BYTE: return getByteValue(binary, var); case BYTES: return getBytesValue(binary, var); case INT32: return getInt32Value(binary, var); case INT64: return getInt64Value(binary, var); case SHORT: return getInt16Value(binary, var); case STRING: var.set(binary); return true; case DOUBLE: return getDoubleValue(binary, var); case FLOAT: return getFloatValue(binary, var); case TASK_BEAN: return getTaskTesult(binary, var); default: // Non-simple type break; } return unwrapRes; }
static void unwrap(const ObjectWrapper& objWrapper, GridClientNode& res) { assert(objWrapper.type() == NODE_BEAN); assert(objWrapper.has_binary()); ::ProtoNodeBean bean; boost::asio::io_service ioSrvc; boost::asio::ip::tcp::resolver resolver(ioSrvc); unmarshalMsg((int8_t*) objWrapper.binary().c_str(), objWrapper.binary().size(), bean); GridNodeMarshallerHelper helper(res); helper.setNodeId(GridUuid::fromBytes(bean.nodeid())); GridClientVariant consistentId; GridClientObjectWrapperConvertor::unwrapSimpleType(bean.consistentid(), consistentId); helper.setConsistentId(consistentId); int tcpport = bean.tcpport(); int jettyport = bean.jettyport(); std::vector<GridSocketAddress> addresses; for (int i = 0; i < bean.jettyaddress_size(); ++i) { if (bean.jettyaddress(i).size()) { GridSocketAddress newJettyAddress = GridSocketAddress(bean.jettyaddress(i), jettyport); boost::asio::ip::tcp::resolver::query queryIp(bean.jettyaddress(i), boost::lexical_cast<std::string>(bean.jettyport())); boost::system::error_code ec; boost::asio::ip::tcp::resolver::iterator endpoint_iter = resolver.resolve(queryIp, ec); if (!ec) addresses.push_back(newJettyAddress); else GG_LOG_ERROR("Error resolving hostname: %s, %s", bean.jettyaddress(i).c_str(), ec.message().c_str()); } } for (int i = 0; i < bean.jettyhostname_size(); ++i) { if (bean.jettyhostname(i).size()) { GridSocketAddress newJettyAddress = GridSocketAddress(bean.jettyhostname(i), jettyport); boost::asio::ip::tcp::resolver::query queryHostname(bean.jettyhostname(i), boost::lexical_cast<std::string>(bean.jettyport())); boost::system::error_code ec; boost::asio::ip::tcp::resolver::iterator endpoint_iter = resolver.resolve(queryHostname, ec); if (!ec) addresses.push_back(newJettyAddress); else GG_LOG_ERROR("Error resolving hostname: %s, %s", bean.jettyhostname(i).c_str(), ec.message().c_str()); } } helper.setJettyAddresses(addresses); addresses.clear(); for (int i = 0; i < bean.tcpaddress_size(); ++i) { if (bean.tcpaddress(i).size()) { GridSocketAddress newTCPAddress = GridSocketAddress(bean.tcpaddress(i), tcpport); boost::asio::ip::tcp::resolver::query queryIp(bean.tcpaddress(i), boost::lexical_cast<std::string>(bean.tcpport())); boost::system::error_code ec; boost::asio::ip::tcp::resolver::iterator endpoint_iter = resolver.resolve(queryIp, ec); if (!ec) addresses.push_back(newTCPAddress); else GG_LOG_ERROR("Error resolving hostname: %s, %s", bean.tcpaddress(i).c_str(), ec.message().c_str()); } } for (int i = 0; i < bean.tcphostname_size(); ++i) { if (bean.tcphostname(i).size()) { GridSocketAddress newTCPAddress = GridSocketAddress(bean.tcphostname(i), tcpport); boost::asio::ip::tcp::resolver::query queryHostname(bean.tcphostname(i), boost::lexical_cast<std::string>(bean.tcpport())); boost::system::error_code ec; boost::asio::ip::tcp::resolver::iterator endpoint_iter = resolver.resolve(queryHostname, ec); if (!ec) addresses.push_back(newTCPAddress); else GG_LOG_ERROR("Error resolving hostname: %s, %s", bean.tcphostname(i).c_str(), ec.message().c_str()); } } helper.setTcpAddresses(addresses); std::map<GridClientVariant, GridClientVariant> cachesVars; unwrapMap(bean.caches(), cachesVars); helper.setCaches(cachesVars); std::map<GridClientVariant, GridClientVariant> attrs; unwrapMap(bean.attributes(), attrs); helper.setAttributes(attrs); if (bean.has_metrics()) { const ::ProtoNodeMetricsBean& metrics = bean.metrics(); GridClientNodeMetricsBean metricsBean; metricsBean.setStartTime(metrics.starttime()); metricsBean.setAverageActiveJobs(metrics.averageactivejobs()); metricsBean.setAverageCancelledJobs(metrics.averagecancelledjobs()); metricsBean.setAverageCpuLoad(metrics.averagecpuload()); metricsBean.setAverageJobExecuteTime(metrics.averagejobexecutetime()); metricsBean.setAverageJobWaitTime(metrics.averagejobwaittime()); metricsBean.setAverageRejectedJobs(metrics.averagerejectedjobs()); metricsBean.setAverageWaitingJobs(metrics.averagewaitingjobs()); metricsBean.setCurrentActiveJobs(metrics.currentactivejobs()); metricsBean.setCurrentCancelledJobs(metrics.currentcancelledjobs()); metricsBean.setCurrentCpuLoad(metrics.currentcpuload()); metricsBean.setCurrentDaemonThreadCount(metrics.currentdaemonthreadcount()); metricsBean.setCurrentIdleTime(metrics.currentidletime()); metricsBean.setCurrentJobExecuteTime(metrics.currentjobexecutetime()); metricsBean.setCurrentJobWaitTime(metrics.currentjobwaittime()); metricsBean.setCurrentRejectedJobs(metrics.currentrejectedjobs()); metricsBean.setCurrentThreadCount(metrics.currentthreadcount()); metricsBean.setCurrentWaitingJobs(metrics.currentwaitingjobs()); metricsBean.setFileSystemFreeSpace(metrics.filesystemfreespace()); metricsBean.setFileSystemTotalSpace(metrics.filesystemtotalspace()); metricsBean.setFileSystemUsableSpace(metrics.filesystemusablespace()); metricsBean.setHeapMemoryCommitted(metrics.heapmemorycommitted()); metricsBean.setHeapMemoryInitialized(metrics.heapmemoryinitialized()); metricsBean.setHeapMemoryMaximum(metrics.heapmemorymaximum()); metricsBean.setHeapMemoryUsed(metrics.heapmemoryused()); metricsBean.setLastDataVersion(metrics.lastdataversion()); metricsBean.setLastUpdateTime(metrics.lastupdatetime()); metricsBean.setMaximumActiveJobs(metrics.maximumactivejobs()); metricsBean.setMaximumCancelledJobs(metrics.maximumcancelledjobs()); metricsBean.setMaximumJobExecuteTime(metrics.maximumjobexecutetime()); metricsBean.setMaximumJobWaitTime(metrics.maximumjobwaittime()); metricsBean.setMaximumRejectedJobs(metrics.maximumrejectedjobs()); metricsBean.setMaximumThreadCount(metrics.maximumthreadcount()); metricsBean.setMaximumWaitingJobs(metrics.maximumwaitingjobs()); metricsBean.setNodeStartTime(metrics.nodestarttime()); metricsBean.setNonHeapMemoryCommitted(metrics.nonheapmemorycommitted()); metricsBean.setNonHeapMemoryInitialized(metrics.nonheapmemoryinitialized()); metricsBean.setNonHeapMemoryMaximum(metrics.nonheapmemorymaximum()); metricsBean.setNonHeapMemoryUsed(metrics.nonheapmemoryused()); metricsBean.setTotalCancelledJobs(metrics.totalcancelledjobs()); metricsBean.setTotalCpus(metrics.totalcpus()); metricsBean.setTotalExecutedJobs(metrics.totalexecutedjobs()); metricsBean.setTotalIdleTime(metrics.totalidletime()); metricsBean.setTotalRejectedJobs(metrics.totalrejectedjobs()); metricsBean.setTotalStartedThreadCount(metrics.totalstartedthreadcount()); metricsBean.setUpTime(metrics.uptime()); helper.setMetrics(metricsBean); } }
static void unwrapResponse(const ObjectWrapper& objWrapper, ProtoResponse& resp) { assert(objWrapper.type() == RESPONSE); assert(objWrapper.has_binary()); unmarshalMsg((int8_t*) objWrapper.binary().c_str(), objWrapper.binary().size(), resp); }