valib/bhshmq.git

			@@ -19,52 +19,120 @@
			#ifndef SOCKET_GWTJHBPO
			#define SOCKET_GWTJHBPO

			#include "bh_util.h"
			#include "defs.h"
			#include "shm_queue.h"
			#include <atomic>
			#include <boost/noncopyable.hpp>
			#include <condition_variable>
			#include <functional>
			#include <memory>
			#include <mutex>
			#include <thread>
			#include <vector>

			using namespace bhome_msg;

			class ShmSocket : private boost::noncopyable
			{
			template <class DoSend>
			inline bool SendImpl(MsgI &msg, const int timeout_ms, const DoSend &doSend)
			{
			bool r = false;
			DEFER1(if (msg.IsCounted() \|\| !r) { msg.Release(shm()); });
			r = doSend(msg);
			return r;
			}

			protected:
			typedef bhome_shm::ShmMsgQueue Queue;

			public:
			typedef bhome_shm::SharedMemory Shm;
			typedef std::function<void(ShmSocket &sock, bhome_msg::MsgI &imsg, bhome_msg::BHMsg &msg)> RecvCB;
			typedef std::function<void(bhome_msg::BHMsg &msg)> RecvBHMsgCB;
			typedef std::function<void(ShmSocket &sock, MsgI &imsg, BHMsgHead &head)> RecvCB;
			typedef std::function<bool(ShmSocket &sock, MsgI &imsg, BHMsgHead &head)> PartialRecvCB;
			typedef std::function<void(ShmSocket &sock)> IdleCB;

			ShmSocket(Shm &shm, const void *id, const int len);
			ShmSocket(Shm &shm, const MQId &id, const int len);
			ShmSocket(Shm &shm, const int len = 12);
			~ShmSocket();

			static bool Remove(SharedMemory &shm, const MQId &id) { return Queue::Remove(shm, id); }
			const MQId &id() const { return mq().Id(); }
			Shm &shm() { return shm_; }
			// start recv.
			bool Start(const RecvCB &onData, const IdleCB &onIdle, int nworker = 1);
			bool Start(const RecvCB &onData, int nworker = 1) { return Start(onData, IdleCB(), nworker); }
			bool Start(const RecvBHMsgCB &onData, const IdleCB &onIdle, int nworker = 1)
			{
			return Start([onData](ShmSocket &sock, bhome_msg::MsgI &imsg, bhome_msg::BHMsg &msg) { onData(msg); }, onIdle, nworker);
			}
			bool Start(const RecvBHMsgCB &onData, int nworker = 1)
			{
			return Start(onData, IdleCB(), nworker);
			}
			bool Start(int nworker = 1, const RecvCB &onData = RecvCB(), const IdleCB &onIdle = IdleCB());
			bool Start(const RecvCB &onData, const IdleCB &onIdle, int nworker = 1) { return Start(nworker, onData, onIdle); }
			bool Start(const RecvCB &onData, int nworker = 1) { return Start(nworker, onData); }
			bool Stop();
			size_t Pending() const { return mq_ ? mq_->Pending() : 0; }
			size_t Pending() const { return mq().Pending(); }

			bool SyncSend(const void *id, const bhome_msg::BHMsg &msg, const int timeout_ms);
			bool SyncRecv(bhome_msg::BHMsg &msg, const int timeout_ms);
			bool Send(const void *valid_remote, const MsgI &imsg, const int timeout_ms)
			{
			assert(valid_remote);
			return mq().Send(static_cast<const MQId >(valid_remote), imsg, timeout_ms);
			}
			//TODO reimplment, using async.
			bool SyncRecv(MsgI &msg, bhome::msg::BHMsgHead &head, const int timeout_ms);

			template <class Body>
			bool Send(const void *valid_remote, const BHMsgHead &head, const Body &body, const int timeout_ms, const RecvCB &cb)
			{
			auto DoSend = [&](MsgI &msg) { return mq().Send(static_cast<const MQId >(valid_remote), msg, timeout_ms, [&]() { per_msg_cbs_->Add(head.msg_id(), cb); }); };
			MsgI msg;
			return msg.Make(shm(), head, body) && SendImpl(msg, timeout_ms, DoSend);
			}

			template <class Body>
			bool Send(const void *valid_remote, const BHMsgHead &head, const Body &body, const int timeout_ms)
			{
			auto DoSend = [&](MsgI &msg) { return mq().Send(static_cast<const MQId >(valid_remote), msg, timeout_ms); };
			MsgI msg;
			return msg.Make(shm(), head, body) && SendImpl(msg, timeout_ms, DoSend);
			}

			template <class Body>
			bool SendAndRecv(const void *remote, const BHMsgHead &head, const Body &body, MsgI &reply, BHMsgHead &reply_head, 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 endtime = std::chrono::steady_clock::now() + std::chrono::milliseconds(timeout_ms);

			auto OnRecv = [st, &reply, &reply_head](ShmSocket &sock, MsgI &msg, BHMsgHead &head) {
			std::unique_lock<std::mutex> lk(st->mutex);
			if (!st->canceled) {
			reply.swap(msg);
			reply_head.Swap(&head);
			st->cv.notify_one();
			} else { // ignore
			}
			};

			std::unique_lock<std::mutex> lk(st->mutex);
			bool sendok = Send(remote, head, body, timeout_ms, OnRecv);
			if (!sendok) {
			printf("send timeout\n");
			}
			if (sendok && st->cv.wait_until(lk, endtime) == std::cv_status::no_timeout) {
			return true;
			} else {
			st->canceled = true;
			return false;
			}
			} catch (...) {
			return false;
			}
			}

			protected:
			const Shm &shm() const { return shm_; }
			Queue &mq() { return *mq_; } // programmer should make sure that mq_ is valid.
			const Queue &mq() const { return *mq_; }
			Queue &mq() { return mq_; } // programmer should make sure that mq_ is valid.
			const Queue &mq() const { return mq_; }
			std::mutex &mutex() { return mutex_; }

			private:
			@@ -76,7 +144,27 @@
			std::mutex mutex_;
			std::atomic<bool> run_;

			std::unique_ptr<Queue> mq_;
			Queue mq_;
			class AsyncCBs
			{
			std::unordered_map<std::string, RecvCB> store_;

			public:
			bool Add(const std::string &id, const RecvCB &cb) { return store_.emplace(id, cb).second; }
			bool Find(const std::string &id, RecvCB &cb)
			{
			auto pos = store_.find(id);
			if (pos != store_.end()) {
			cb.swap(pos->second);
			store_.erase(pos);
			return true;
			} else {
			return false;
			}
			}
			};

			Synced<AsyncCBs> per_msg_cbs_;
			};

			#endif // end of include guard: SOCKET_GWTJHBPO