valib/bhshmq.git

			@@ -1,301 +1,69 @@
			#include "center.h"
			#include "defs.h"
			#include "log.h"
			#include "util.h"
			#include <atomic>
			#include <condition_variable>
			#include <stdio.h>
			#include <string>
			#include <vector>
			#include <thread>
			#include <chrono>
			#include <atomic>
			#include <boost/noncopyable.hpp>
			#include <boost/timer/timer.hpp>
			#include <boost/test/unit_test.hpp>
			#include <boost/date_time/posix_time/posix_time.hpp>
			#include <boost/date_time/microsec_time_clock.hpp>
			#include <boost/uuid/uuid_generators.hpp>
			#include <boost/uuid/uuid_io.hpp>
			#include "shm_queue.h"
			#include "bh_util.h"
			#include <vector>

			using namespace std::chrono_literals;
			namespace
			{
			bool InitLog()
			{
			ns_log::AddLog("/tmp/bhshmq_test.log", true, true);
			ns_log::ResetLogLevel(ns_log::LogLevel::debug);
			return true;
			}
			static bool g_test_init_log = InitLog();
			} // namespace

			using namespace bhome_shm;
			using namespace bhome_msg;

			struct s1000 { char a[1000]; };
			SharedMemory &TestShm()
			{
			static SharedMemory shm("utest_0", 1024 * 1024 * 512);
			return shm;
			}

			typedef std::function<void(void)> FuncVV;
			class ScopeCall : private boost::noncopyable {
			FuncVV f_;
			public:
			ScopeCall(FuncVV f):f_(f) { f_(); }
			~ScopeCall() { f_(); }
			template <class A, class B>
			struct IsSameType {
			static const bool value = false;
			};
			class ThreadManager {
			std::vector<std::thread> threads_;
			public:
			~ThreadManager() { WaitAll(); }
			template <class T, class...P>
			void Launch(T t, P...p) { threads_.emplace_back(t, p...); }
			void WaitAll() {
			for (auto &t : threads_) {
			if (t.joinable()) {
			t.join();
			}
			}
			}
			};
			class ProcessManager {

			};
			struct ShmRemover {
			std::string name_;
			ShmRemover(const std::string &name):name_(name) { SharedMemory::Remove(name_); }
			~ShmRemover() { SharedMemory::Remove(name_); }
			template <class A>
			struct IsSameType<A, A> {
			static const bool value = true;
			};

			BOOST_AUTO_TEST_CASE(ShmBasicTest)
			BOOST_AUTO_TEST_CASE(Temp)
			{
			const std::string shm_name("basic");
			ShmRemover auto_remove(shm_name);
			SharedMemory shm(shm_name, 1024102410);
			const std::string shm_name("ShmTemp");
			ShmRemover auto_remove(shm_name); //remove twice? in case of killed?
			SharedMemory shm(shm_name, 1024 * 1024 * 10);

			offset_ptr<const void> p;
			BOOST_CHECK(!p);
			BOOST_CHECK(p.get() == 0);
			p = 0;
			BOOST_CHECK(!p);
			BOOST_CHECK(p.get() == 0);
			const char *str = "basic";
			p = str;
			BOOST_CHECK(p);
			BOOST_CHECK(p.get() == str);
			p = 0;
			BOOST_CHECK(!p);
			BOOST_CHECK(p.get() == 0);


			auto Avail = [&]() { return shm.get_free_memory(); };
			auto init_avail = Avail();

			auto BasicTest = [&](int tid, int nloop) {
			auto Code = [&](int id) {

			typedef ShmObject<s1000> Int;
			std::string name = std::to_string(id);
			auto a0 = Avail();
			Int i1(shm, name);
			auto a1 = Avail();
			BOOST_CHECK_LT(a1, a0);
			printf("s1000 size: %ld\n", a0 - a1);
			i1->a[0] = 5;
			Int i2(shm, name);
			auto a2 = Avail();
			BOOST_CHECK_EQUAL(a1, a2);
			BOOST_CHECK_EQUAL(i1.data(), i2.data());
			int i = i1.Remove();
			BOOST_CHECK_EQUAL(Avail(), a0);

			{
			auto old = Avail();
			void *p = shm.Alloc(1024);
			shm.Dealloc(p);
			BOOST_CHECK_EQUAL(old, Avail());
			}

			bool r = shared_memory_object::remove(shm_name.c_str());
			BOOST_CHECK(r);
			};
			boost::timer::auto_cpu_timer timer;
			for (int i = 0; i < nloop; ++i)
			{
			Code(i + tid*nloop);
			}
			};

			boost::timer::auto_cpu_timer timer;
			DEFER1(printf("Basic Test:"););
			ThreadManager threads;
			int nthread = 1;
			int nloop = 1;
			for (int i = 0; i < nthread; ++i)
			{
			threads.Launch(BasicTest, i, nloop);
			}
			printf("end\n");
			BOOST_CHECK_EQUAL(init_avail, Avail());
			typedef std::chrono::steady_clock clock;
			int n = 1000 * 1000;
			std::vector<clock::time_point> tps(n);
			{
			printf("thread switch %d times, ", n);
			boost::timer::auto_cpu_timer timer;
			for (auto &tp : tps) {
			tp = clock::now();
			std::this_thread::yield();
			}
			}
			printf("time: %ld ns\n", (tps.back() - tps.front()).count());
			}

			BOOST_AUTO_TEST_CASE(TimedWaitTest)
			{
			const std::string shm_name("shm_wait");
			ShmRemover auto_remove(shm_name);
			SharedMemory shm(shm_name, 1024*1024);
			ShmMsgQueue q(shm, 64);
			for (int i = 0; i < 5; ++i) {
			int ms = i * 100;
			printf("Timeout Test %d: ", ms);
			boost::timer::auto_cpu_timer timer;
			MQId id;
			void *data;
			size_t size;
			bool r = q.Recv(id, data, size, ms);
			BOOST_CHECK(!r);
			}
			}

			BOOST_AUTO_TEST_CASE(RefCountTest)
			{
			const std::string shm_name("ShmRefCount");
			ShmRemover auto_remove(shm_name);
			SharedMemory shm(shm_name, 1024*1024);

			Msg m0(shm.Alloc(1000), shm.New<RefCount>());
			BOOST_CHECK(m0.IsCounted());
			BOOST_CHECK_EQUAL(m0.Count(), 1);
			Msg m1 = m0;
			BOOST_CHECK(m1.IsCounted());
			BOOST_CHECK_EQUAL(m1.AddRef(), 2);
			BOOST_CHECK_EQUAL(m0.AddRef(), 3);
			BOOST_CHECK_EQUAL(m0.Release(shm), 2);
			BOOST_CHECK_EQUAL(m0.Release(shm), 1);
			BOOST_CHECK_EQUAL(m1.Release(shm), 0);
			BOOST_CHECK_THROW(m1.Count(), std::exception);
			}

			BOOST_AUTO_TEST_CASE(MsgHeaderTest)
			{
			MsgMetaV1 head;
			BOOST_CHECK_EQUAL(head.self_size_, sizeof(head));
			BOOST_CHECK_EQUAL(head.type_, kMsgTypeNormal);
			BOOST_CHECK_EQUAL(head.tag_, kMsgMetaTag);
			BOOST_CHECK_EQUAL(head.data_size_, 0);
			BOOST_CHECK(head.src_id_ == boost::uuids::nil_uuid());

			head.data_size_ = 100;
			head.src_id_ = boost::uuids::random_generator()();
			head.type_ = 123;

			char buf[100] = {0};
			head.Pack(buf);
			MsgMetaV1 result;
			result.Parse(buf);
			BOOST_CHECK_EQUAL(memcmp(&head, &result, sizeof(head)), 0);

			}
			BOOST_AUTO_TEST_CASE(RequestReplyTest)
			{
			const std::string shm_name("ShmReqRep");
			ShmRemover auto_remove(shm_name);
			SharedMemory shm(shm_name, 1024102450);
			auto Avail = [&]() { return shm.get_free_memory(); };
			auto init_avail = Avail();
			// DEFER1(BOOST_CHECK_EQUAL(init_avail, Avail()); printf("Request Reply Test shm No Leak.\n"););

			auto f0 = init_avail;
			const int qlen = 64;
			ShmMsgQueue srv(shm, qlen);
			ShmMsgQueue cli(shm, qlen);
			auto f1= shm.get_free_memory();

			const size_t msg_length = 1000;
			std::string msg_content(msg_length, 'a');
			msg_content[20] = '\0';
			Msg request;
			request.Build(shm, cli.Id(), msg_content.data(), msg_content.size(), true);
			Msg reply(request);

			std::atomic<bool> stop(false);
			std::atomic<uint64_t> count(0);
			using namespace boost::posix_time;
			auto Now = []() { return second_clock::universal_time(); };
			std::atomic<ptime> last_time(Now() - seconds(1));
			std::atomic<uint64_t> last_count(0);

			auto Client = [&](int tid, int nmsg){
			for (int i = 0; i < nmsg; ++i) {
			auto Send = [&]() { return cli.Send(srv.Id(), msg_content.data(), msg_content.size(), 1000); };
			// auto SendRefCounted = [&]() { return cli.Send(srv.Id(), request, 1000); };

			if (!Send()) {
			printf("********** client send error.\n");
			continue;
			}
			MQId id;
			void *data = 0;
			size_t size = 0;
			if (!cli.Recv(id, data, size, 1000)) {
			printf("********** client recv error.\n");
			} else {
			DEFER1(free(data));
			if(size != msg_length) {
			BOOST_CHECK(false);
			}
			++count;
			auto cur = Now();
			if (last_time.exchange(cur) != cur) {
			std::cout << "time: " << Now();
			printf(", total msg:%10ld, speed:%8ld/s, used mem:%8ld, refcount:%d\n",
			count.load(), count - last_count.exchange(count), init_avail - Avail(), request.Count());
			last_time = cur;
			}

			}
			}
			};

			auto Server = [&](){
			void *data = 0;
			size_t size = 0;
			MQId src_id;
			while (!stop) {
			if (srv.Recv(src_id, data, size, 100)) {
			DEFER1(free(data));
			auto Send = [&](){ return srv.Send(src_id, data, size, 100); };
			// auto SendRefCounted = [&](){ return srv.Send(src_id, reply, 100); };

			if (Send()) {
			if (size != msg_content.size()) {
			BOOST_TEST(false, "server msg size error");
			}
			}
			}
			}
			};

			boost::timer::auto_cpu_timer timer;
			DEFER1(printf("Request Reply Test:"););

			ThreadManager clients, servers;
			for (int i = 0; i < qlen; ++i) { servers.Launch(Server); }
			int ncli = 100*1;
			uint64_t nmsg = 10010010;
			printf("client threads: %d, msgs : %ld, total msg: %ld\n", ncli, nmsg, ncli * nmsg);
			for (int i = 0; i < ncli; ++i) { clients.Launch(Client, i, nmsg); }
			clients.WaitAll();
			printf("request ok: %ld\n", count.load());
			stop = true;
			servers.WaitAll();
			BOOST_CHECK(request.IsCounted());
			BOOST_CHECK_EQUAL(request.Count(), 1);
			BOOST_CHECK(reply.IsCounted());
			BOOST_CHECK_EQUAL(reply.Count(), 1);
			request.Release(shm);
			BOOST_CHECK_THROW(request.Count(), std::exception);
			BOOST_CHECK_THROW(reply.Count(), std::exception);
			// BOOST_CHECK_THROW(reply.Count(), int);
			}

			inline int MyMin(int a, int b) {
			printf("MyMin\n");
			return a < b ? a : b;
			}
			int test_main(int argc, char *argv[])
			{
			printf("test main\n");
			int a = 0;
			int b = 0;
			BOOST_CHECK_EQUAL(a, b);
			int n = MyMin(4,6);
			for (int i = 0; i < n; ++i) {
			printf("i = %d\n", i);
			}
			printf("test main\n");
			int a = 0;
			int b = 0;
			BOOST_CHECK_EQUAL(a, b);

			return 0;
			return 0;
			}