valib/bhshmq.git

			@@ -102,91 +102,6 @@
			using namespace std::chrono;
			// using namespace std::chrono_literals;

			BOOST_AUTO_TEST_CASE(MutexTest)
			{
			// typedef robust::CasMutex<true> RobustMutex;
			typedef MutexWithPidCheck RobustMutex;

			for (int i = 0; i < 20; ++i) {
			int size = i;
			int left = size & 7;
			int rsize = size + ((8 - left) & 7);
			printf("size: %3d, rsize: %3d\n", size, rsize);
			}
			SharedMemory &shm = TestShm();
			// shm.Remove();
			// return;
			GlobalInit(shm);

			const std::string mtx_name("test_mutex");
			const std::string int_name("test_int");
			auto mtx = shm.FindOrCreate<RobustMutex>(mtx_name);
			auto pi = shm.FindOrCreate<int>(int_name, 100);

			std::mutex m;
			typedef std::chrono::steady_clock Clock;
			auto Now = []() { return Clock::now().time_since_epoch(); };
			if (pi) {
			auto old = *pi;
			printf("int : %d, add1: %d\n", old, ++*pi);
			}

			{
			boost::timer::auto_cpu_timer timer;
			const int ntimes = 1000 * 1000;
			printf("test lock/unlock %d times: ", ntimes);
			RobustMutex mutex;
			auto Lock = [&]() {
			for (int i = 0; i < ntimes; ++i) {
			mutex.lock();
			mutex.unlock();
			}
			};
			std::thread t1(Lock), t2(Lock);
			t1.join();
			t2.join();
			}

			auto MSFromNow = [](const int ms) {
			using namespace boost::posix_time;
			ptime cur = boost::posix_time::microsec_clock::universal_time();
			return cur + millisec(ms);
			};

			auto TryLock = [&]() {
			if (mtx->try_lock()) {
			printf("try_lock ok\n");
			return true;
			} else {
			printf("try_lock failed\n");
			return false;
			}
			};
			auto Unlock = [&]() {
			mtx->unlock();
			printf("unlocked\n");
			};

			if (mtx) {
			printf("mtx exists\n");
			if (TryLock()) {
			auto op = [&]() {
			if (TryLock()) {
			Unlock();
			}
			};
			op();
			std::thread t(op);
			t.join();
			// Unlock();
			} else {
			// mtx->unlock();
			}
			} else {
			printf("mtx not exists\n");
			}
			}

			BOOST_AUTO_TEST_CASE(ApiTest)
			{
			auto max_time = std::chrono::steady_clock::time_point::max();
			@@ -203,6 +118,8 @@

			printf("maxsec: %ld\n", CountSeconds(max_time));

			// BHCleanup();
			// return;
			bool reg = false;
			for (int i = 0; i < 3 && !reg; ++i) {
			ProcInfo proc;
			@@ -212,7 +129,14 @@
			void *reply = 0;
			int reply_len = 0;
			reg = BHRegister(proc_buf.data(), proc_buf.size(), &reply, &reply_len, 2000);
			printf("register %s\n", reg ? "ok" : "failed");
			if (reg) {
			printf("register ok\n");
			} else {
			int ec = 0;
			std::string msg;
			GetLastError(ec, msg);
			printf("register failed, %d, %s\n", ec, msg.c_str());
			}

			BHFree(reply, reply_len);
			Sleep(1s);
			@@ -234,7 +158,7 @@
			bool r = BHRegisterTopics(s.data(), s.size(), &reply, &reply_len, 1000);
			BHFree(reply, reply_len);
			// printf("register topic : %s\n", r ? "ok" : "failed");
			Sleep(1s);
			// Sleep(1s);
			}

			{ // Subscribe
			@@ -322,6 +246,7 @@
			DEFER1(BHFree(msg_id, len););
			// Sleep(10ms, false);
			std::string dest(BHAddress().SerializeAsString());

			bool r = BHAsyncRequest(dest.data(), dest.size(), s.data(), s.size(), 0, 0);
			if (r) {
			++Status().nrequest_;
			@@ -367,7 +292,7 @@
			threads.Launch(hb, &run);
			threads.Launch(showStatus, &run);
			int ncli = 10;
			const uint64_t nreq = 1000 * 100;
			const int64_t nreq = 1000 * 100;
			for (int i = 0; i < ncli; ++i) {
			threads.Launch(asyncRequest, nreq);
			}
			@@ -376,12 +301,13 @@
			// }

			int same = 0;
			int64_t last = 0;
			while (last < nreq * ncli && same < 2) {
			uint64_t last = 0;
			while (last < nreq * ncli && same < 3) {
			Sleep(1s, false);
			auto cur = Status().nreply_.load();
			if (last == cur) {
			++same;
			printf("same %d\n", same);
			} else {
			last = cur;
			same = 0;
			@@ -391,6 +317,7 @@
			run = false;
			threads.WaitAll();
			auto &st = Status();
			Sleep(1s);
			printf("nreq: %8ld, nsrv: %8ld, nreply: %8ld\n", st.nrequest_.load(), st.nserved_.load(), st.nreply_.load());
			BHCleanup();
			printf("after cleanup\n");