Finishing framework refactor.

src/framework/KafkaManager.cpp

@@ -1,221 +0,0 @@
-//
-//	License type: BSD 3-Clause License
-//	License copy: https://github.com/Telecominfraproject/wlan-cloud-ucentralgw/blob/master/LICENSE
-//
-//	Created by Stephane Bourque on 2021-03-04.
-//	Arilia Wireless Inc.
-//
-#include <thread>
-
-#include "KafkaManager.h"
-
-#include "Daemon.h"
-#include "Utils.h"
-
-namespace OpenWifi {
-
-	class KafkaManager *KafkaManager::instance_ = nullptr;
-
-	KafkaManager::KafkaManager() noexcept:
-		SubSystemServer("KafkaManager", "KAFKA-SVR", "openwifi.kafka")
-	{
-	}
-
-	void KafkaManager::initialize(Poco::Util::Application & self) {
-		SubSystemServer::initialize(self);
-		KafkaEnabled_ = Daemon()->ConfigGetBool("openwifi.kafka.enable",false);
-	}
-
-#ifdef SMALL_BUILD
-
-	int KafkaManager::Start() {
-		return 0;
-	}
-	void KafkaManager::Stop() {
-	}
-
-#else
-
-	int KafkaManager::Start() {
-		if(!KafkaEnabled_)
-			return 0;
-		ProducerThr_ = std::make_unique<std::thread>([this]() { this->ProducerThr(); });
-		ConsumerThr_ = std::make_unique<std::thread>([this]() { this->ConsumerThr(); });
-		return 0;
-	}
-
-	void KafkaManager::Stop() {
-		if(KafkaEnabled_) {
-			ProducerRunning_ = ConsumerRunning_ = false;
-			ProducerThr_->join();
-			ConsumerThr_->join();
-			return;
-		}
-	}
-
-	void KafkaManager::ProducerThr() {
-		cppkafka::Configuration Config({
-										   { "client.id", Daemon()->ConfigGetString("openwifi.kafka.client.id") },
-										   { "metadata.broker.list", Daemon()->ConfigGetString("openwifi.kafka.brokerlist") }
-									   });
-		SystemInfoWrapper_ = 	R"lit({ "system" : { "id" : )lit" +
-								  	std::to_string(Daemon()->ID()) +
-									R"lit( , "host" : ")lit" + Daemon()->PrivateEndPoint() +
-									R"lit(" } , "payload" : )lit" ;
-		cppkafka::Producer	Producer(Config);
-		ProducerRunning_ = true;
-		while(ProducerRunning_) {
-			std::this_thread::sleep_for(std::chrono::milliseconds(200));
-			try
-			{
-				std::lock_guard G(ProducerMutex_);
-				auto Num=0;
-				while (!Queue_.empty()) {
-					const auto M = Queue_.front();
-					Producer.produce(
-						cppkafka::MessageBuilder(M.Topic).key(M.Key).payload(M.PayLoad));
-					Queue_.pop();
-					Num++;
-				}
-				if(Num)
-					Producer.flush();
-			} catch (const cppkafka::HandleException &E ) {
-				Logger_.warning(Poco::format("Caught a Kafka exception (producer): %s",std::string{E.what()}));
-			} catch (const Poco::Exception &E) {
-				Logger_.log(E);
-			}
-		}
-	}
-
-	void KafkaManager::PartitionAssignment(const cppkafka::TopicPartitionList& partitions) {
-		Logger_.information(Poco::format("Partition assigned: %Lu...",(uint64_t )partitions.front().get_partition()));
-	}
-	void KafkaManager::PartitionRevocation(const cppkafka::TopicPartitionList& partitions) {
-		Logger_.information(Poco::format("Partition revocation: %Lu...",(uint64_t )partitions.front().get_partition()));
-	}
-
-	void KafkaManager::ConsumerThr() {
-		cppkafka::Configuration Config({
-										   { "client.id", Daemon()->ConfigGetString("openwifi.kafka.client.id") },
-										   { "metadata.broker.list", Daemon()->ConfigGetString("openwifi.kafka.brokerlist") },
-										   { "group.id", Daemon()->ConfigGetString("openwifi.kafka.group.id") },
-										   { "enable.auto.commit", Daemon()->ConfigGetBool("openwifi.kafka.auto.commit",false) },
-										   { "auto.offset.reset", "latest" } ,
-										   { "enable.partition.eof", false }
-									   });
-
-		cppkafka::TopicConfiguration topic_config = {
-			{ "auto.offset.reset", "smallest" }
-		};
-
-		// Now configure it to be the default topic config
-		Config.set_default_topic_configuration(topic_config);
-
-		cppkafka::Consumer Consumer(Config);
-		Consumer.set_assignment_callback([this](cppkafka::TopicPartitionList& partitions) {
-			if(!partitions.empty()) {
-				Logger_.information(Poco::format("Partition assigned: %Lu...",
-												 (uint64_t)partitions.front().get_partition()));
-			}
-		});
-		Consumer.set_revocation_callback([this](const cppkafka::TopicPartitionList& partitions) {
-			if(!partitions.empty()) {
-				Logger_.information(Poco::format("Partition revocation: %Lu...",
-												 (uint64_t)partitions.front().get_partition()));
-			}
-		});
-
-        bool AutoCommit = Daemon()->ConfigGetBool("openwifi.kafka.auto.commit",false);
-        auto BatchSize = Daemon()->ConfigGetInt("openwifi.kafka.consumer.batchsize",20);
-
-        Types::StringVec    Topics;
-		for(const auto &i:Notifiers_)
-			Topics.push_back(i.first);
-
-		Consumer.subscribe(Topics);
-
-		ConsumerRunning_ = true;
-		while(ConsumerRunning_) {
-			try {
-				std::vector<cppkafka::Message> MsgVec = Consumer.poll_batch(BatchSize, std::chrono::milliseconds(200));
-				for(auto const &Msg:MsgVec) {
-                    if (!Msg)
-                        continue;
-                    if (Msg.get_error()) {
-                        if (!Msg.is_eof()) {
-                            Logger_.error(Poco::format("Error: %s", Msg.get_error().to_string()));
-                        }if(!AutoCommit)
-                            Consumer.async_commit(Msg);
-                        continue;
-                    }
-                    std::lock_guard G(ConsumerMutex_);
-                    auto It = Notifiers_.find(Msg.get_topic());
-                    if (It != Notifiers_.end()) {
-                        Types::TopicNotifyFunctionList &FL = It->second;
-                        std::string Key{Msg.get_key()};
-                        std::string Payload{Msg.get_payload()};
-                        for (auto &F : FL) {
-                            std::thread T(F.first, Key, Payload);
-                            T.detach();
-                        }
-                    }
-                    if (!AutoCommit)
-                        Consumer.async_commit(Msg);
-                }
-			} catch (const cppkafka::HandleException &E) {
-				Logger_.warning(Poco::format("Caught a Kafka exception (consumer): %s",std::string{E.what()}));
-			} catch (const Poco::Exception &E) {
-				Logger_.log(E);
-			}
-		}
-	}
-
-	std::string KafkaManager::WrapSystemId(const std::string & PayLoad) {
-		return std::move( SystemInfoWrapper_ + PayLoad + "}");
-	}
-
-	void KafkaManager::PostMessage(const std::string &topic, const std::string & key, const std::string &PayLoad, bool WrapMessage ) {
-		if(KafkaEnabled_) {
-			std::lock_guard G(Mutex_);
-			KMessage M{
-				.Topic = topic,
-				.Key = key,
-				.PayLoad = WrapMessage ? WrapSystemId(PayLoad) : PayLoad };
-			Queue_.push(M);
-		}
-	}
-
-	int KafkaManager::RegisterTopicWatcher(const std::string &Topic, Types::TopicNotifyFunction &F) {
-		if(KafkaEnabled_) {
-			std::lock_guard G(Mutex_);
-			auto It = Notifiers_.find(Topic);
-			if(It == Notifiers_.end()) {
-				Types::TopicNotifyFunctionList L;
-				L.emplace(L.end(),std::make_pair(F,FunctionId_));
-				Notifiers_[Topic] = std::move(L);
-			} else {
-				It->second.emplace(It->second.end(),std::make_pair(F,FunctionId_));
-			}
-			return FunctionId_++;
-		} else {
-			return 0;
-		}
-	}
-
-	void KafkaManager::UnregisterTopicWatcher(const std::string &Topic, int Id) {
-		if(KafkaEnabled_) {
-			std::lock_guard G(Mutex_);
-			auto It = Notifiers_.find(Topic);
-			if(It != Notifiers_.end()) {
-				Types::TopicNotifyFunctionList & L = It->second;
-				for(auto it=L.begin(); it!=L.end(); it++)
-					if(it->second == Id) {
-						L.erase(it);
-						break;
-					}
-			}
-		}
-	}
-
-#endif
-} // namespace