valib/bhshmq.git

			@@ -20,8 +20,6 @@
			#include "bh_util.h"
			#include "defs.h"
			#include "msg.h"
			#include <chrono>
			#include <condition_variable>

			using namespace bhome_msg;
			using namespace bhome_shm;
			@@ -31,108 +29,24 @@

			} // namespace

			//TODO maybe change to base class, each type is a sub class.

			ShmSocket::ShmSocket(Type type, bhome_shm::SharedMemory &shm) :
			shm_(shm), type_(type), run_(false)
			ShmSocket::ShmSocket(Shm &shm, const MQId &id, const int len) :
			shm_(shm), run_(false), mq_(id, shm, len)
			{
			switch (type) {
			case eSockBus: mq_.reset(new Queue(kBHBusQueueId, shm_, 1000)); break;
			case eSockRequest: mq_.reset(new Queue(shm_, 12)); break;
			case eSockReply: mq_.reset(new Queue(shm_, 64)); break;
			case eSockSubscribe: mq_.reset(new Queue(shm_, 64)); break;
			case eSockPublish: break; // no recv mq needed
			default: break;
			}
			}

			ShmSocket::ShmSocket(Type type) :
			ShmSocket(type, BHomeShm()) {}
			ShmSocket::ShmSocket(bhome_shm::SharedMemory &shm, const int len) :
			shm_(shm), run_(false), mq_(shm, len) {}

			ShmSocket::~ShmSocket()
			{
			Stop();
			Stop(); //TODO should stop in sub class, incase thread access sub class data.
			}

			bool ShmSocket::Publish(const std::string &topic, const void *data, const size_t size, const int timeout_ms)
			bool ShmSocket::Start(int nworker, const RecvCB &onData, const IdleCB &onIdle)
			{
			if (type_ != eSockPublish) {
			return false;
			}
			assert(!mq_);
			try {
			MsgI imsg;
			if (!imsg.MakeRC(shm_, MakePub(topic, data, size))) {
			return false;
			}
			DEFER1(imsg.Release(shm_));
			return Queue::Send(shm_, kBHBusQueueId, imsg, timeout_ms);
			} catch (...) {
			return false;
			}
			}

			bool ShmSocket::Subscribe(const std::vector<std::string> &topics, const int timeout_ms)
			{
			if (type_ != eSockSubscribe) {
			return false;
			}
			assert(mq_);
			try {
			return mq_->Send(kBHBusQueueId, MakeSub(mq_->Id(), topics), timeout_ms);
			} catch (...) {
			return false;
			}
			}

			bool ShmSocket::StartRaw(const RecvRawCB &onData, int nworker)
			{
			auto CanRecv = [this]() {
			switch (type_) {
			case eSockRequest:
			case eSockReply:
			case eSockBus:
			case eSockSubscribe:
			return true;
			default:
			return false;
			}
			};
			if (!CanRecv()) {
			return false;
			}
			std::lock_guard<std::mutex> lock(mutex_);

			StopNoLock();
			auto RecvProc = [this, onData]() {
			while (run_) {
			try {
			MsgI imsg;
			DEFER1(imsg.Release(shm_));
			if (mq_->Recv(imsg, 100)) { onData(imsg); }
			} catch (...) {
			}
			}
			};

			run_.store(true);
			for (int i = 0; i < nworker; ++i) {
			workers_.emplace_back(RecvProc);
			}
			return true;
			}

			bool ShmSocket::Start(const RecvCB &onData, int nworker)
			{
			return StartRaw([this, onData](MsgI &imsg) { BHMsg m; if (imsg.Unpack(m)) { onData(m); } }, nworker);
			}

			bool ShmSocket::StartAsync(int nworker)
			{
			auto AsyncRecvProc = [this](BHMsg &msg) {
			auto onRecv = [this, onData](ShmSocket &socket, MsgI &imsg, BHMsgHead &head) {
			auto Find = [&](RecvCB &cb) {
			std::lock_guard<std::mutex> lock(mutex_);
			const std::string &msgid = msg.msg_id();
			std::lock_guard<std::mutex> lock(mutex());
			const std::string &msgid = head.msg_id();
			auto pos = async_cbs_.find(msgid);
			if (pos != async_cbs_.end()) {
			cb.swap(pos->second);
			@@ -144,12 +58,38 @@
			};

			RecvCB cb;
			if (Find(cb) && cb) {
			cb(msg);
			if (Find(cb)) {
			cb(socket, imsg, head);
			} else if (onData) {
			onData(socket, imsg, head);
			} // else ignored, or dropped
			};

			std::lock_guard<std::mutex> lock(mutex_);
			StopNoLock();
			auto RecvProc = [this, onRecv, onIdle]() {
			while (run_) {
			try {
			MsgI imsg;
			if (mq().Recv(imsg, 10)) {
			DEFER1(imsg.Release(shm()));
			BHMsgHead head;
			if (imsg.ParseHead(head)) {
			onRecv(*this, imsg, head);
			}
			} else if (onIdle) {
			onIdle(*this);
			}
			} catch (...) {
			}
			}
			};

			return Start(AsyncRecvProc, nworker);
			run_.store(true);
			for (int i = 0; i < nworker; ++i) {
			workers_.emplace_back(RecvProc);
			}
			return true;
			}

			bool ShmSocket::Stop()
			@@ -166,118 +106,24 @@
			w.join();
			}
			}
			workers_.clear();
			return true;
			}
			return false;
			}

			bool ShmSocket::AsyncRequest(const void remote, const void pmsg, const int timeout_ms, const RecvCB &cb)
			bool ShmSocket::SyncRecv(bhome_msg::MsgI &msg, bhome::msg::BHMsgHead &head, const int timeout_ms)
			{
			if (type_ != eSockRequest) {
			std::lock_guard<std::mutex> lock(mutex_);
			auto Recv = [&]() {
			if (mq().Recv(msg, timeout_ms)) {
			if (msg.ParseHead(head)) {
			return true;
			} else {
			msg.Release(shm());
			}
			}
			return false;
			}
			assert(remote && pmsg && !mq_);
			try {
			const BHMsg &msg = static_cast<const BHMsg >(pmsg);
			auto RegisterCB = [&]() {
			std::lock_guard<std::mutex> lock(mutex_);
			async_cbs_.emplace(msg.msg_id(), cb);
			};

			return mq_->Send(static_cast<const MQId >(remote), msg, timeout_ms, RegisterCB);
			} catch (...) {
			return false;
			}
			}

			bool ShmSocket::SyncRequest(const void remote, const void msg, void *result, const int timeout_ms)
			{
			struct State {
			std::mutex mutex;
			std::condition_variable cv;
			bool canceled = false;
			};

			try {
			std::shared_ptr<State> st(new State);
			auto OnRecv = [=](BHMsg &msg) {
			std::unique_lock<std::mutex> lk(st->mutex);
			if (!st->canceled) {
			static_cast<BHMsg *>(result)->Swap(&msg);
			st->cv.notify_one();
			}
			};

			std::unique_lock<std::mutex> lk(st->mutex);
			auto end = std::chrono::steady_clock::now() + std::chrono::milliseconds(timeout_ms);
			if (AsyncRequest(remote, msg, timeout_ms, OnRecv) && st->cv.wait_until(lk, end) == std::cv_status::no_timeout) {
			return true;
			} else {
			st->canceled = true;
			return false;
			}
			} catch (...) {
			return false;
			}
			}

			bool ShmSocket::QueryRPCTopic(const std::string &topic, bhome::msg::BHAddress &addr, const int timeout_ms)
			{
			BHMsg result;
			const BHMsg &msg = MakeQueryTopic(topic);
			if (SyncRequest(&kBHTopicRPCId, &msg, &result, timeout_ms)) {
			if (result.type() == kMsgTypeQueryTopicReply) {
			DataQueryTopicReply reply;
			if (reply.ParseFromString(result.body())) {
			addr = reply.address();
			return !addr.mq_id().empty();
			}
			}
			}
			return false;
			}

			bool ShmSocket::RequestRPC(const std::string &topic, const void *data, const size_t size, const int timeout_ms, const RequestResultCB &cb)
			{
			auto Call = [&](const void *remote) {
			const BHMsg &msg(MakeRequest(mq_->Id(), topic, data, size));
			auto onRecv = [cb](BHMsg &msg) {
			if (msg.type() == kMsgTypeReply) {
			DataReply reply;
			if (reply.ParseFromString(msg.body())) {
			cb(reply.data().data(), reply.data().size());
			}
			}
			};
			return AsyncRequest(remote, &msg, timeout_ms, onRecv);
			};

			try {
			BHAddress addr;
			if (QueryRPCTopic(topic, addr, timeout_ms)) {
			return Call(addr.mq_id().data());
			}
			} catch (...) {
			return false;
			}
			}

			bool ShmSocket::RequestRPC(const std::string &topic, const void *data, const size_t size, const int timeout_ms, std::string &out)
			{
			try {
			BHAddress addr;
			if (QueryRPCTopic(topic, addr, timeout_ms)) {
			const BHMsg &msg(MakeRequest(mq_->Id(), topic, data, size));
			BHMsg reply;
			if (SyncRequest(addr.mq_id().data(), &msg, &reply, timeout_ms) && reply.type() == kMsgTypeReply) {
			DataReply dr;
			if (dr.ParseFromString(msg.body())) {
			dr.mutable_data()->swap(out);
			return true;
			}
			}
			}
			} catch (...) {
			return false;
			}
			return !RunningNoLock() && Recv();
			}